How to Install and Uninstall r-cran-bios2cor Package on Kali Linux
Last updated: November 07,2024
1. Install "r-cran-bios2cor" package
Please follow the step by step instructions below to install r-cran-bios2cor on Kali Linux
$
sudo apt update
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$
sudo apt install
r-cran-bios2cor
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2. Uninstall "r-cran-bios2cor" package
This tutorial shows how to uninstall r-cran-bios2cor on Kali Linux:
$
sudo apt remove
r-cran-bios2cor
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$
sudo apt autoclean && sudo apt autoremove
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3. Information about the r-cran-bios2cor package on Kali Linux
Package: r-cran-bios2cor
Version: 2.2.1-1
Installed-Size: 1402
Maintainer: Debian R Packages Maintainers
Architecture: all
Depends: r-base-core (>= 4.2.1-1), r-api-4.0, r-cran-bio3d, r-cran-circular, r-cran-bigmemory, r-cran-igraph
Size: 689248
SHA256: 45a19e887a51502058fb1c7404a649dc7877026037316eda49212a696b9d5a4a
SHA1: f8ec4d2f97aa276d7caeda7e13784da0ea1018b8
MD5sum: 3654630034d0daf564516901c38b41cf
Description: GNU R from Biological Sequences and Simulations to Correlation
Analysis Utilities for computation and analysis of
correlation/covariation in multiple sequence alignments and in
side chain motions during molecular dynamics simulations. Features
include the computation of correlation/covariation scores using a
variety of scoring functions between either sequence positions in
alignments or side chain dihedral angles in molecular dynamics
simulations and utilities to analyze the correlation/covariation
matrix through a variety of tools including network representation
and principal components analysis. In addition, several utility
functions are based on the R graphical environment to provide
friendly tools for help in data interpretation. Examples of
sequence covariation analysis are provided in: (1) Pele J, Moreau
M, Abdi H, Rodien P, Castel H, Chabbert M (2014)
and (2) Taddese B, Deniaud M, Garnier A,
Tiss A, Guissouma H, Abdi H, Henrion D, Chabbert M (2018)
10.1371/journal.pcbi.1006209>. An example of side chain correlated
motion analysis is provided in: Taddese B, Garnier A, Abdi H,
Henrion D, Chabbert M (2020)
1>. This work was supported by the French National Research
Agency (Grant number: ANR-11-BSV2-026) and by GENCI (Grant
number: 100567).
Description-md5:
Homepage: https://cran.r-project.org/package=Bios2cor
Section: gnu-r
Priority: optional
Filename: pool/main/r/r-cran-bios2cor/r-cran-bios2cor_2.2.1-1_all.deb
Version: 2.2.1-1
Installed-Size: 1402
Maintainer: Debian R Packages Maintainers
Architecture: all
Depends: r-base-core (>= 4.2.1-1), r-api-4.0, r-cran-bio3d, r-cran-circular, r-cran-bigmemory, r-cran-igraph
Size: 689248
SHA256: 45a19e887a51502058fb1c7404a649dc7877026037316eda49212a696b9d5a4a
SHA1: f8ec4d2f97aa276d7caeda7e13784da0ea1018b8
MD5sum: 3654630034d0daf564516901c38b41cf
Description: GNU R from Biological Sequences and Simulations to Correlation
Analysis Utilities for computation and analysis of
correlation/covariation in multiple sequence alignments and in
side chain motions during molecular dynamics simulations. Features
include the computation of correlation/covariation scores using a
variety of scoring functions between either sequence positions in
alignments or side chain dihedral angles in molecular dynamics
simulations and utilities to analyze the correlation/covariation
matrix through a variety of tools including network representation
and principal components analysis. In addition, several utility
functions are based on the R graphical environment to provide
friendly tools for help in data interpretation. Examples of
sequence covariation analysis are provided in: (1) Pele J, Moreau
M, Abdi H, Rodien P, Castel H, Chabbert M (2014)
Tiss A, Guissouma H, Abdi H, Henrion D, Chabbert M (2018)
motion analysis is provided in: Taddese B, Garnier A, Abdi H,
Henrion D, Chabbert M (2020)
Agency (Grant number: ANR-11-BSV2-026) and by GENCI (Grant
number: 100567).
Description-md5:
Homepage: https://cran.r-project.org/package=Bios2cor
Section: gnu-r
Priority: optional
Filename: pool/main/r/r-cran-bios2cor/r-cran-bios2cor_2.2.1-1_all.deb