J. Aravind
| Snapshot Date: 2024-03-27 14:00:18 -0400 (Wed, 27 Mar 2024) |
| git_url: https://git.bioconductor.org/packages/rmelting |
| git_branch: devel |
| git_last_commit: aad86c8 |
| git_last_commit_date: 2023-10-24 11:10:47 -0400 (Tue, 24 Oct 2023) |
| Back to Multiple platform build/check report for BioC 3.19: simplified long |
|
This page was generated on 2024-03-28 11:38:23 -0400 (Thu, 28 Mar 2024).
| Hostname | OS | Arch (*) | R version | Installed pkgs |
|---|---|---|---|---|
| nebbiolo1 | Linux (Ubuntu 22.04.3 LTS) | x86_64 | R Under development (unstable) (2024-03-18 r86148) -- "Unsuffered Consequences" | 4708 |
| palomino3 | Windows Server 2022 Datacenter | x64 | R Under development (unstable) (2024-03-16 r86144 ucrt) -- "Unsuffered Consequences" | 4446 |
| lconway | macOS 12.7.1 Monterey | x86_64 | R Under development (unstable) (2024-03-18 r86148) -- "Unsuffered Consequences" | 4471 |
| kunpeng2 | Linux (openEuler 22.03 LTS-SP1) | aarch64 | R Under development (unstable) (2024-03-19 r86153) -- "Unsuffered Consequences" | 4426 |
| Click on any hostname to see more info about the system (e.g. compilers) (*) as reported by 'uname -p', except on Windows and Mac OS X | ||||
| Package 1763/2270 | Hostname | OS / Arch | INSTALL | BUILD | CHECK | BUILD BIN | ||||||||
| rmelting 1.19.0 (landing page) J. Aravind
| nebbiolo1 | Linux (Ubuntu 22.04.3 LTS) / x86_64 | OK | OK | OK | | ||||||||
| palomino3 | Windows Server 2022 Datacenter / x64 | OK | OK | OK | OK | | ||||||||
| lconway | macOS 12.7.1 Monterey / x86_64 | OK | OK | OK | OK | | ||||||||
| kunpeng2 | Linux (openEuler 22.03 LTS-SP1) / aarch64 | OK | OK | OK | ||||||||||
|
To the developers/maintainers of the rmelting package: - Allow up to 24 hours (and sometimes 48 hours) for your latest push to git@git.bioconductor.org:packages/rmelting.git to reflect on this report. See Troubleshooting Build Report for more information. - Use the following Renviron settings to reproduce errors and warnings. - If 'R CMD check' started to fail recently on the Linux builder(s) over a missing dependency, add the missing dependency to 'Suggests:' in your DESCRIPTION file. See Renviron.bioc for more information. |
| Package: rmelting |
| Version: 1.19.0 |
| Command: F:\biocbuild\bbs-3.19-bioc\R\bin\R.exe CMD check --no-multiarch --install=check:rmelting.install-out.txt --library=F:\biocbuild\bbs-3.19-bioc\R\library --no-vignettes --timings rmelting_1.19.0.tar.gz |
| StartedAt: 2024-03-28 05:58:57 -0400 (Thu, 28 Mar 2024) |
| EndedAt: 2024-03-28 06:00:00 -0400 (Thu, 28 Mar 2024) |
| EllapsedTime: 63.1 seconds |
| RetCode: 0 |
| Status: OK |
| CheckDir: rmelting.Rcheck |
| Warnings: 0 |
##############################################################################
##############################################################################
###
### Running command:
###
### F:\biocbuild\bbs-3.19-bioc\R\bin\R.exe CMD check --no-multiarch --install=check:rmelting.install-out.txt --library=F:\biocbuild\bbs-3.19-bioc\R\library --no-vignettes --timings rmelting_1.19.0.tar.gz
###
##############################################################################
##############################################################################
* using log directory 'F:/biocbuild/bbs-3.19-bioc/meat/rmelting.Rcheck'
* using R Under development (unstable) (2024-03-16 r86144 ucrt)
* using platform: x86_64-w64-mingw32
* R was compiled by
gcc.exe (GCC) 13.2.0
GNU Fortran (GCC) 13.2.0
* running under: Windows Server 2022 x64 (build 20348)
* using session charset: UTF-8
* using option '--no-vignettes'
* checking for file 'rmelting/DESCRIPTION' ... OK
* this is package 'rmelting' version '1.19.0'
* package encoding: UTF-8
* checking package namespace information ... OK
* checking package dependencies ... OK
* checking if this is a source package ... OK
* checking if there is a namespace ... OK
* checking for hidden files and directories ... OK
* checking for portable file names ... OK
* checking whether package 'rmelting' can be installed ... OK
* checking installed package size ... OK
* checking package directory ... OK
* checking 'build' directory ... OK
* checking DESCRIPTION meta-information ... OK
* checking top-level files ... OK
* checking for left-over files ... OK
* checking index information ... OK
* checking package subdirectories ... OK
* checking code files for non-ASCII characters ... OK
* checking R files for syntax errors ... OK
* checking whether the package can be loaded ... OK
* checking whether the package can be loaded with stated dependencies ... OK
* checking whether the package can be unloaded cleanly ... OK
* checking whether the namespace can be loaded with stated dependencies ... OK
* checking whether the namespace can be unloaded cleanly ... OK
* checking whether startup messages can be suppressed ... OK
* checking dependencies in R code ... OK
* checking S3 generic/method consistency ... OK
* checking replacement functions ... OK
* checking foreign function calls ... OK
* checking R code for possible problems ... OK
* checking Rd files ... NOTE
checkRd: (-1) melting.Rd:192-196: Lost braces in \itemize; meant \describe ?
checkRd: (-1) melting.Rd:197-198: Lost braces in \itemize; meant \describe ?
checkRd: (-1) melting.Rd:199-200: Lost braces in \itemize; meant \describe ?
checkRd: (-1) withWE.Rd:14: Lost braces in \itemize; \value handles \item{}{} directly
checkRd: (-1) withWE.Rd:15: Lost braces in \itemize; \value handles \item{}{} directly
* checking Rd metadata ... OK
* checking Rd cross-references ... OK
* checking for missing documentation entries ... OK
* checking for code/documentation mismatches ... OK
* checking Rd \usage sections ... OK
* checking Rd contents ... OK
* checking for unstated dependencies in examples ... OK
* checking sizes of PDF files under 'inst/doc' ... OK
* checking files in 'vignettes' ... OK
* checking examples ... OK
* checking for unstated dependencies in 'tests' ... OK
* checking tests ...
Running 'testthat.R'
OK
* checking for unstated dependencies in vignettes ... OK
* checking package vignettes ... OK
* checking running R code from vignettes ... SKIPPED
* checking re-building of vignette outputs ... SKIPPED
* checking PDF version of manual ... OK
* DONE
Status: 1 NOTE
See
'F:/biocbuild/bbs-3.19-bioc/meat/rmelting.Rcheck/00check.log'
for details.
rmelting.Rcheck/00install.out
############################################################################## ############################################################################## ### ### Running command: ### ### F:\biocbuild\bbs-3.19-bioc\R\bin\R.exe CMD INSTALL rmelting ### ############################################################################## ############################################################################## * installing to library 'F:/biocbuild/bbs-3.19-bioc/R/library' * installing *source* package 'rmelting' ... ** using staged installation ** R ** inst ** byte-compile and prepare package for lazy loading ** help Loading required namespace: rmelting *** installing help indices ** building package indices ** installing vignettes ** testing if installed package can be loaded from temporary location ** testing if installed package can be loaded from final location ** testing if installed package keeps a record of temporary installation path * DONE (rmelting)
rmelting.Rcheck/tests/testthat.Rout
R Under development (unstable) (2024-03-16 r86144 ucrt) -- "Unsuffered Consequences"
Copyright (C) 2024 The R Foundation for Statistical Computing
Platform: x86_64-w64-mingw32/x64
R is free software and comes with ABSOLUTELY NO WARRANTY.
You are welcome to redistribute it under certain conditions.
Type 'license()' or 'licence()' for distribution details.
R is a collaborative project with many contributors.
Type 'contributors()' for more information and
'citation()' on how to cite R or R packages in publications.
Type 'demo()' for some demos, 'help()' for on-line help, or
'help.start()' for an HTML browser interface to help.
Type 'q()' to quit R.
> library(testthat)
> library(rmelting)
--------------------------------------------------------------------------------
Welcome to rmelting version 1.19.0
# To know how to use this package type:
browseVignettes(package = 'rmelting')
for the package vignette.
# To know whats new in this version type:
news(package='rmelting')
for the NEWS file.
# To cite the methods in the package type:
citation(package='rmelting')
# To suppress this message use:
suppressPackageStartupMessages(library(rmelting))
--------------------------------------------------------------------------------
>
> test_check("rmelting")
WARNING :
The current DMSO corrections has not been tested with experimenta values.
WARNING :
The current DMSO corrections has not been tested with experimenta values.
WARNING :
The current DMSO corrections has not been tested with experimenta values.
WARNING :
The current DMSO corrections has not been tested with experimenta values.
WARNING :
The current DMSO corrections has not been tested with experimenta values.
WARNING :
The current formamide correction has not been tested with experimentalWARNING :
The current DMSO corrections has not been tested with experimenta values.
WARNING :
The current DMSO corrections has not been tested with experimenta values.
WARNING :
The current DMSO corrections has not been tested with experimenta values.
WARNING :
The current DMSO corrections has not been tested with experimenta values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The current formamide correction has not been tested with experimWARNING :
The current DMSO corrections has not been tested with experimenta values.
WARNING :
The current DMSO corrections has not been tested with experimenta values.
WARNING :
The current DMSO corrections has not been tested with experimenta values.
WARNING :
The current DMSO corrections has not been tested with experimenta values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The current formamide correction has not been tested with experimWARNING :
The current DMSO corrections has not been tested with experimenta values.
WARNING :
The current DMSO corrections has not been tested with experimenta values.
WARNING :
The current DMSO corrections has not been tested with experimenta values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The current formamide correction has not been tested with exWARNING :
The current DMSO corrections has not been tested with experimenta values.
WARNING :
The current DMSO corrections has not been tested with experimenta values.
WARNING :
The current DMSO corrections has not been tested with experimenta values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The current formamide correction has not been tested with exWARNING :
The current DMSO corrections has not been tested with experimenta values.
WARNING :
The current DMSO corrections has not been tested with experimenta values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) iWARNING :
The current DMSO corrections has not been tested with experimenta values.
WARNING :
The current DMSO corrections has not been tested with experimenta values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) iWARNING :
The current DMSO corrections has not been tested with experimenta values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of ZhiWARNING :
The current DMSO corrections has not been tested with experimenta values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
TWARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
TWARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNWARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNental values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)ental values.
WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally WARNING :
The current formamide correction has not been tested with experimental values.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally perimental values.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction operimental values.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction os originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.s originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al.WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al.WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al.WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al.WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al.WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al.WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al.WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al.WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al.WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al.WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al.WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al.WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al.WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al.-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodiWARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of SchilWARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of SchilWARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of SchilWARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of SchilWARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of SchilWARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schilhe magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jiehe magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-JieWARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correctiWARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correctiWARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correctiWARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correctiRNA or DNA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The foris originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic sis originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic sA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of MA duplexes.
WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Mestablished for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na =established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na =WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty,WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty,WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty,WARNING :
The magnesium correction of Zhi-Jie Tan et al. (2007)is originally established for RNA or DNA duplexes.
WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty,WARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M anWARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M anWARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M anWARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M anWARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M anWARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M anWARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M anWARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M anWARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M anWARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M anWARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M anWARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M anWARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M anWARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M anWARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M anWARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M anWARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M anWARNING :
The sodium correction of Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M anf Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formulf Santalucia et al. (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formul
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic stre
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic stre (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, (1996) is not reliable for sodium concentrations inferior to 0.1M.
WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, dkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01dkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01dkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01dkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01dkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01dkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01WARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strenWARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strenWARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strenWARNING :
The sodium correction of Schildkraut Lifson (1965) is applicable for sodium concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strenum concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal um concentrations between 0.01 and 0.2 M.
WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with WARNING :
The sodium correction of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The interna Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internaon of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING : on of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING : on of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING : on of Zhi-Jie Tan et al. (2007) is originally established for RNA duplexes.
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING : WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental valuesWARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental valuesWARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental valuesWARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental valuesWARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental valuesWARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental valuesWARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental valuesWARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental valuesWARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental valuesWARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental valuesWARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental valuesWARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental valuesWARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental valuesWARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental valuesWARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental valuesWARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental valuesWARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental valuesWARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental valuesWARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental valuesWARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental valuesWARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental valuesWARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental valuesmula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The larmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulgearmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model trength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
Ttrength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
T 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge d k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested d k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested d k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested d k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested d k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested d k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested d k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested d k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested d k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested d k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested d k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested d k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested d k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested d k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested d k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested d k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested d k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested d k = 0.05 M
WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested WARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimeWARNING :
The formula of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimea of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :a of Marmur, Doty, Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :Chester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge lChester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge lChester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge lChester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge lChester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge lChester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge lChester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge lChester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge lChester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge lChester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge lChester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge lChester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge lChester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge lChester and Marshak is originally established at a given ionic strength : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge lngth : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNIngth : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNI M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has gth : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNINgth : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNINgth : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNINgth : Na = 0 M, Mg = 0.0015 M, Tris = 0.01 M and k = 0.05 M
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNINWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested wiloop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
Wloop model san04 has not been tested with experimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
Wl loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose al loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose a
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The resul
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The resul
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The resul
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The resulexperimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing bexperimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing bexperimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing bexperimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing bexperimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing bexperimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing bexperimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing bexperimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing bexperimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing bexperimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing bexperimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing bexperimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing bexperimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing bexperimental values.
WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing bWARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing.WARNING :
The internal loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing.ong bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with expe loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental .
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not be.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not be.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not be.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not be.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not be.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not be.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not be.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not be.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not be.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not be.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not be.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not be.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not be.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not be.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not be.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not be.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not be.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not be.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not be.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not be.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not be.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not beWARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not beenWARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not beenWARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not beenWARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not beenWARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not beenWARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not beenWARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not beenWARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not beenWARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not beenWARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not beenWARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not beenWARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not beenWARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not beenWARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not beenWARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not beenWARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not beenWARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not beenWARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not beenWARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not beenWARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not beenWARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not beenWARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not beenhe long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with he long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental vloop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental vsan04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNsan04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNsan04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNsan04 has not been tested with experimental values.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNWARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not beenWARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested w
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested woop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental vaoop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental vaoop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental vaoop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental vaoop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental vaoop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental vaoop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental vaoop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental vaoop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental vaoop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental vaoop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental vaoop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental vaoop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental vaoop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental vawith experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loowith experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loowith experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loowith experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loowith experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loowith experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loowith experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loowith experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loowith experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loowith experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loowith experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loowith experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loowith experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loowith experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loowith experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loowith experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loowith experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loowith experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loontal values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06ntal values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not beenWARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The parameters for AT closing base pair are missing. The results can lose accuracy.
WARNING :
The long bulge loop model san04 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been tested with experimental values.
WARNING :
The long bulge loop model tur06 has not been[ FAIL 0 | WARN 0 | SKIP 0 | PASS 140 ]
>
> proc.time()
user system elapsed
9.06 0.54 8.18
rmelting.Rcheck/rmelting-Ex.timings
| name | user | system | elapsed | |
| melting | 0.42 | 0.02 | 4.79 | |
| meltingBatch | 1.84 | 0.03 | 1.69 | |
| withWE | 0 | 0 | 0 | |