<![CDATA[BOL: Related items]]> https://bioinformaticsonline.com/related/30002?offset=200 https://bioinformaticsonline.com/bookmarks/view/31100/vaguevelvet-assembler-graphical-front-end Fri, 24 Feb 2017 08:56:49 -0600 https://bioinformaticsonline.com/bookmarks/view/31100/vaguevelvet-assembler-graphical-front-end <![CDATA[VAGUE:Velvet Assembler Graphical Front End]]> VAGUE is a vague acronym for "Velvet Assembler Graphical Front End", which means it is a GUI for the Velvet de novo assembler. The command line version of Velvet can be complicated for beginners to use, but VAGUE makes it clear and simple

More at http://www.vicbioinformatics.com/software.vague.shtml

Address of the bookmark: http://www.vicbioinformatics.com/software.vague.shtml

]]> Jit https://bioinformaticsonline.com/bookmarks/view/30111/eager Sat, 10 Dec 2016 18:07:23 -0600 https://bioinformaticsonline.com/bookmarks/view/30111/eager <![CDATA[EAGER]]> The automated reconstruction of genome sequences in ancient genome analysis is a multifaceted process.

EAGER encompasses both state-of-the-art tools for each step as well as new complementary tools tailored for ancient DNA data within a single integrated solution in an easily accessible format.

https://genomebiology.biomedcentral.com/articles/10.1186/s13059-016-0918-z

Address of the bookmark: https://github.com/apeltzer/EAGER-GUI

]]> Jit https://bioinformaticsonline.com/bookmarks/view/30234/last Mon, 19 Dec 2016 14:07:53 -0600 https://bioinformaticsonline.com/bookmarks/view/30234/last <![CDATA[LAST]]> LAST can:

  • Handle big sequence data, e.g:
    • Compare two vertebrate genomes
    • Align billions of DNA reads to a genome
  • Indicate the reliability of each aligned column.
  • Use sequence quality data properly.
  • Compare DNA to proteins, with frameshifts.
  • Compare PSSMs to sequences
  • Calculate the likelihood of chance similarities between random sequences.
  • Do split and spliced alignment.
  • Train alignment parameters for unusual kinds of sequence (e.g. nanopore).

Address of the bookmark: http://last.cbrc.jp/

]]> Bulbul https://bioinformaticsonline.com/bookmarks/view/30375/mauve-a-system-for-constructing-multiple-genome-alignments-in-the-presence-of-large-scale-evolutionary-events-such-as-rearrangement-and-inversion Sat, 24 Dec 2016 09:20:53 -0600 https://bioinformaticsonline.com/bookmarks/view/30375/mauve-a-system-for-constructing-multiple-genome-alignments-in-the-presence-of-large-scale-evolutionary-events-such-as-rearrangement-and-inversion <![CDATA[Mauve: a system for constructing multiple genome alignments in the presence of large-scale evolutionary events such as rearrangement and inversion]]> Mauve is a system for constructing multiple genome alignments in the presence of large-scale evolutionary events such as rearrangement and inversion. Multiple genome alignments provide a basis for research into comparative genomics and the study of genome-wide evolutionary dynamics.

Mauve has been developed with the idea that a multiple genome aligner should require only modest computational resources. It employs algorithmic techniques that scale well in the lengths of sequences being aligned. For example, a pair of Y. pestis genomes can be aligned in under a minute, while a group of 9 divergent Enterobacterial genomes can be aligned in a few hours. However, the current algorithm’s compute time (progressiveMauve) scales cubically in the number of genomes to align, making it unsuitable for datasets containing more than 50-100 bacterial genomes.

Address of the bookmark: http://darlinglab.org/mauve/mauve.html

]]> Jit https://bioinformaticsonline.com/bookmarks/view/30557/speedseq Fri, 20 Jan 2017 06:05:43 -0600 https://bioinformaticsonline.com/bookmarks/view/30557/speedseq <![CDATA[SpeedSeq]]> A flexible framework for rapid genome analysis and interpretation

C Chiang, R M Layer, G G Faust, M R Lindberg, D B Rose, E P Garrison, G T Marth, A R Quinlan, and I M Hall. SpeedSeq: ultra-fast personal genome analysis and interpretation. Nat Meth (2015). doi:10.1038/nmeth.3505.

http://www.nature.com/nmeth/journal/vaop/ncurrent/full/nmeth.3505.html

Address of the bookmark: https://github.com/hall-lab/speedseq

]]> Jit https://bioinformaticsonline.com/bookmarks/view/29656/statistics-and-probability Tue, 08 Nov 2016 07:34:25 -0600 https://bioinformaticsonline.com/bookmarks/view/29656/statistics-and-probability <![CDATA[Statistics and probability]]> Topics

Address of the bookmark: https://www.khanacademy.org/math/statistics-probability

]]> Jit https://bioinformaticsonline.com/bookmarks/view/31012/genomecomp Fri, 17 Feb 2017 08:38:32 -0600 https://bioinformaticsonline.com/bookmarks/view/31012/genomecomp <![CDATA[GenomeComp]]> GenomeComp is a tool for summarizing, parsing and visualizing the genome wide sequence comparison results derived from voluminous BLAST textual output, so as to locate the rearrangements, insertions or deletions of genome segments between species or strains.

It can be easily used to compare, parsing and visualize large genomic sequences, especially closely related genomes such as inter-species or inter-strains. In addition, it can also show other sequence features like repeat sequence distributions in one whole-genome DNA sequence by comparing the genome to itself.

It is a stand-alone graphical user interface (GUI) program which runs on Linux, Unix, Mac OS X (tested on version 10.2.4 only) and Microsoft Windows platforms and is written in Perl/Tk.

Address of the bookmark: http://www.mgc.ac.cn/GenomeComp/

]]> Jit https://bioinformaticsonline.com/bookmarks/view/30153/e-mem-efficient-computation-of-maximal-exact-matches Thu, 15 Dec 2016 09:30:43 -0600 https://bioinformaticsonline.com/bookmarks/view/30153/e-mem-efficient-computation-of-maximal-exact-matches <![CDATA[E-MEM: Efficient computation of Maximal Exact Matches]]> E-MEM is a C++/OpenMP program designed to efficiently compute MEMs between large genomes. See the README file for instructions on how to use E-MEM. 

E-MEM source code

The source code can be downloaded here

If you use E-MEM, please cite:

  • N. Khiste, L. Ilie, E-MEM: Efficient computation of Maximal Exact Matches for very large genomes, Bioinformatics 31(4) (2015) 509 -- 514.

For any questions, please contact Lucian Ilie: ilie@uwo.ca 

Address of the bookmark: http://www.csd.uwo.ca/~ilie/E-MEM/

]]> Jit https://bioinformaticsonline.com/bookmarks/view/30212/pear Mon, 19 Dec 2016 09:28:30 -0600 https://bioinformaticsonline.com/bookmarks/view/30212/pear <![CDATA[PEAR]]> PEAR is an ultrafast, memory-efficient and highly accurate pair-end read merger. It is fully parallelized and can run with as low as just a few kilobytes of memory.

PEAR evaluates all possible paired-end read overlaps and without requiring the target fragment size as input. In addition, it implements a statistical test for minimizing false-positive results. Together with a highly optimized implementation, it can merge millions of paired end reads within a couple of minutes on a standard desktop computer.

Address of the bookmark: http://sco.h-its.org/exelixis/web/software/pear/doc.html

]]> Jit https://bioinformaticsonline.com/bookmarks/view/31568/pacbio-long-reads-compatible-software-and-tools Wed, 15 Mar 2017 14:19:01 -0500 https://bioinformaticsonline.com/bookmarks/view/31568/pacbio-long-reads-compatible-software-and-tools <![CDATA[Pacbio Long Reads Compatible Software and Tools]]> The following software packages are known to be compatible with PacBio® data, in addition to PacBio's own SMRT® Analysis suite. All packages are believed to be open source or freely available for non-commercial use. See the individual project sites for up-to-date license information. A separate page lists commercial software.

Know of any other open source software for PacBio data? Email us.

Software categories:

Address of the bookmark: https://github.com/PacificBiosciences/DevNet/wiki/Compatible-Software

]]> Archana Malhotra