<![CDATA[BOL: Related items]]> https://bioinformaticsonline.com/related/40389?offset=60 https://bioinformaticsonline.com/bookmarks/view/44641/heliano-a-fast-and-accurate-tool-for-detection-of-helitron-like-elements Tue, 13 Aug 2024 07:16:34 -0500 https://bioinformaticsonline.com/bookmarks/view/44641/heliano-a-fast-and-accurate-tool-for-detection-of-helitron-like-elements <![CDATA[HELIANO: A fast and accurate tool for detection of Helitron-like elements]]> Helitron-like elements (HLE1 and HLE2) are DNA transposons. They have been found in diverse species and seem to play significant roles in the evolution of host genomes. Although known for over twenty years, Helitron sequences are still challenging to identify. Here, we propose HELIANO (Helitron-like elements annotator) as an efficient solution for detecting Helitron-like elements.

https://academic.oup.com/nar/advance-article/doi/10.1093/nar/gkae679/7730539?login=true

Address of the bookmark: https://github.com/Zhenlisme/heliano/

]]> LEGE https://bioinformaticsonline.com/bookmarks/view/34049/libsvm-a-library-for-support-vector-machines Wed, 02 Aug 2017 06:49:05 -0500 https://bioinformaticsonline.com/bookmarks/view/34049/libsvm-a-library-for-support-vector-machines <![CDATA[LIBSVM -- A Library for Support Vector Machines]]> LIBSVM is an integrated software for support vector classification, (C-SVC, nu-SVC), regression (epsilon-SVR, nu-SVR) and distribution estimation (one-class SVM). It supports multi-class classification.

Since version 2.8, it implements an SMO-type algorithm proposed in this paper:
R.-E. Fan, P.-H. Chen, and C.-J. Lin. Working set selection using second order information for training SVM. Journal of Machine Learning Research 6, 1889-1918, 2005. You can also find a pseudo code there. (how to cite LIBSVM)

Our goal is to help users from other fields to easily use SVM as a tool. LIBSVM provides a simple interface where users can easily link it with their own programs. Main features of LIBSVM include

  • Different SVM formulations
  • Efficient multi-class classification
  • Cross validation for model selection
  • Probability estimates
  • Various kernels (including precomputed kernel matrix)
  • Weighted SVM for unbalanced data
  • Both C++ and Java sources
  • GUI demonstrating SVM classification and regression
  • PythonRMATLABPerlRubyWekaCommon LISPCLISPHaskellOCamlLabVIEW, and PHP interfaces. C# .NET code and CUDA extension is available. 
    It's also included in some data mining environments: RapidMinerPCP, and LIONsolver.
  • Automatic model selection which can generate contour of cross validation accuracy.

https://www.csie.ntu.edu.tw/~cjlin/libsvm/

Address of the bookmark: https://www.csie.ntu.edu.tw/~cjlin/libsvm/

]]> Neel https://bioinformaticsonline.com/bookmarks/view/37529/bokeh-an-interactive-visualization-library-that-targets-modern-web-browsers-for-presentation Fri, 10 Aug 2018 18:43:08 -0500 https://bioinformaticsonline.com/bookmarks/view/37529/bokeh-an-interactive-visualization-library-that-targets-modern-web-browsers-for-presentation <![CDATA[Bokeh: An interactive visualization library that targets modern web browsers for presentation]]> Bokeh is an interactive visualization library that targets modern web browsers for presentation. Its goal is to provide elegant, concise construction of versatile graphics, and to extend this capability with high-performance interactivity over very large or streaming datasets. Bokeh can help anyone who would like to quickly and easily create interactive plots, dashboards, and data applications.

To get started using Bokeh to make your visualizations, see the User Guide.

To see examples of how you might use Bokeh with your own data, check out the Gallery.

A complete API reference of Bokeh is at Reference Guide.

If you are interested in contributing to Bokeh, or extending the library, see the Developer Guide.

Address of the bookmark: https://bokeh.pydata.org/en/latest/

]]> Jit https://bioinformaticsonline.com/bookmarks/view/41734/supernova-generates-phased-whole-genome-de-novo-assemblies-from-a-chromium-prepared-library Sun, 31 May 2020 01:59:30 -0500 https://bioinformaticsonline.com/bookmarks/view/41734/supernova-generates-phased-whole-genome-de-novo-assemblies-from-a-chromium-prepared-library <![CDATA[Supernova: generates phased, whole-genome de novo assemblies from a Chromium-prepared library.]]> Supernova generates phased, whole-genome de novo assemblies from a Chromium-prepared library.

Please see Achieving Success with De Novo Assembly and System Requirements before creating your Chromium libraries for assembly.

Supernova should be run using 38-56x coverage of the genome.
• Somewhat higher coverage is sometimes advantageous.
• Supernova will exit if it finds that coverage is far from the recommended range.
• Note that at most 2.14 billion reads are allowed.
• Please note that we have not extensively tested genomes larger than human, and any genome above approximately 4 GB should be considered experimental and is not supported.

Address of the bookmark: https://support.10xgenomics.com/de-novo-assembly/software/pipelines/latest/using/running

]]> Jit https://bioinformaticsonline.com/bookmarks/view/42148/chromatiblock-scalable-whole-genome-visualisation-of-structural-changes-in-prokaryotes Sat, 22 Aug 2020 05:17:18 -0500 https://bioinformaticsonline.com/bookmarks/view/42148/chromatiblock-scalable-whole-genome-visualisation-of-structural-changes-in-prokaryotes <![CDATA[chromatiblock: Scalable, whole-genome visualisation of structural changes in prokaryotes]]> To create a fresh environment for chromatiblock to run in do:

conda create --name chromatiblock
conda activate chromatiblock
conda install chromatiblock --channel conda-forge --channel bioconda

Then in future to run chromatiblock you can reactivate this environemtn using conda activate chromatiblock

Direct download:

Alternatively you can download and run the script from here.

Address of the bookmark: https://github.com/mjsull/chromatiblock

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