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  • Abhi posted to the wire 753 days ago
  • Abhi published a blog post Interesting Bioinformatics Resources ! 753 days ago
    Bioinformatics Resources !
  • Abhi published a blog post Tools for Differential expression analysis 756 days ago
    the sequenced reads can be mapped to the organism’s genes to assess how differently the genes are expressed under the experimental circumstances as opposed to the control scenario. This is known as differential expression (DE) analysis
    Comments
    • LEGE 633 days ago

      Differential expression analysis is a widely used technique in genomics and transcriptomics research that allows researchers to identify genes that are differentially expressed between two or more conditions or groups. There are several tools available for performing differential expression analysis, including:

      1. DESeq2: This R package is widely used for analyzing RNA-Seq data. It uses a negative binomial distribution to model the count data and provides methods for estimating variance and testing for differential expression.

      2. edgeR: Another R package that is commonly used for differential expression analysis of RNA-Seq data. It uses a generalized linear model to model the count data and provides methods for estimating dispersion and testing for differential expression.

      3. limma: A popular R package that is used for differential expression analysis of microarray and RNA-Seq data. It uses a linear model to model the gene expression data and provides methods for estimating variance and testing for differential expression.

      4. NOISeq: This is an R package that is used for differential expression analysis of RNA-Seq data. It uses a non-parametric method based on the relative expression values of the genes and provides a user-friendly interface for performing the analysis.

      5. Cuffdiff: This tool is a part of the Cufflinks suite and is used for differential expression analysis of RNA-Seq data. It uses a Bayesian framework to model the gene expression data and provides methods for estimating variance and testing for differential expression.

      6. DEGSeq: This R package is used for differential expression analysis of RNA-Seq data. It uses a method based on the negative binomial distribution to model the count data and provides methods for estimating variance and testing for differential expression.

      These are just a few examples of the many tools available for differential expression analysis. The choice of tool depends on the specific research question, the type of data, and the user's familiarity with the tool.

  • Abhi published a blog post Tools for RNA classification 756 days ago
    The method used to isolate, enrich and sequence a sample will affect the composition of the sequencing data in terms of the types of RNA species represented and their relative abundances
    Comments
    • LEGE 633 days ago

      There are several tools available for RNA classification, each with its own strengths and limitations. Here are some commonly used tools:

      1. Infernal: Infernal is a popular tool for RNA classification that uses a covariance model approach to identify RNA homologs. It is particularly useful for identifying non-coding RNA (ncRNA) sequences.

      2. Rfam: Rfam is a database of RNA families and their corresponding covariance models. It is based on Infernal and provides a comprehensive resource for RNA classification.

      3. RNAcode: RNAcode is a machine learning-based tool that uses a support vector machine (SVM) algorithm to classify RNA sequences. It is particularly useful for identifying small functional RNA molecules.

      4. RNAmmer: RNAmmer is a tool for predicting rRNA genes in genomic sequences. It uses a combination of HMM-based and BLAST-based approaches to identify rRNA sequences.

      5. tRNAscan-SE: tRNAscan-SE is a tool for identifying tRNA genes in genomic sequences. It uses a combination of HMM-based and comparative sequence analysis approaches to predict tRNA genes.

      These tools can be used individually or in combination to achieve the best possible classification of RNA sequences.

  • Abhi published a blog post Tools for Sequence translation ! 756 days ago
    A core element in the downstream analysis for RNA-seq data involves the translation of assembled sequences into their corresponding amino acid sequences, and on the nucleotide level into the protein coding sequences (CDS) not containing any...
    Comments
    • LEGE 633 days ago

      Sequence translation is the process of converting a DNA or RNA sequence into its corresponding protein sequence. This is an important step in the analysis of genomic and transcriptomic data. There are several tools available for sequence translation, including:

      1. ExPASy Translate Tool: This is a web-based tool that allows users to translate a DNA sequence into its corresponding protein sequence. It supports several genetic codes and can handle multiple sequences at once.

      2. EMBOSS Transeq: This is a command-line tool that can translate nucleotide sequences into amino acid sequences. It supports several genetic codes and can also perform reverse translation (i.e., convert a protein sequence into its corresponding nucleotide sequence).

      3. BioPython: This is a Python library that provides several tools for bioinformatics analysis, including sequence translation. It supports several genetic codes and provides functions for translating DNA or RNA sequences into protein sequences.

      4. SeqKit: This is a command-line tool that can perform several sequence manipulations, including sequence translation. It supports several genetic codes and can handle multiple sequences at once.

      5. CLC Sequence Viewer: This is a desktop application that provides several tools for sequence analysis, including sequence translation. It supports several genetic codes and provides a user-friendly interface for performing the analysis.

      These are just a few examples of the many tools available for sequence translation. The choice of tool depends on the specific requirements of the user, including the input format, the genetic code used, and the type of output required.

  • Abhi posted a new ad in the Opportunity PhD positions on integrative omics and phylogenomics 776 days ago
  • Abhi created a new bio-script Perl script to read the next line of a file ! 778 days ago
  • Abhi bookmarked Visualise blast results ! 784 days ago
    Kablammo helps you create interactive visualizations of BLAST results from your web browser. Find your most interesting alignments, list detailed parameters for each, and export a publication-ready vector image, all without installing any...
  • Abhi published a blog post Must read paper and books in evolution biology ! 790 days ago
    Books and research paper to read
  • Abhi published a blog post Useful link to teach evolution ! 790 days ago
    Mimicry and other resources
  • Abhi created a page Read Simulators 795 days ago
    Short Read Simulators With the popularity of next-generation sequencing (NGS) technologies, many NGS read simulators have been developed. Currently, many of the popular short read simulators are designed to simulate reads mimicking many Illumina,...
    Comments
    • BioStar 628 days ago

      There are several tools available for short read simulators that are widely used in bioinformatics research. Here are some of them:

      1. ART: The ART (short for Artificial Read Simulator) is a popular tool for generating synthetic reads based on sequencing technologies such as Illumina, SOLiD, and 454. It is a versatile tool that allows users to simulate reads with different error rates, read lengths, and insert sizes. The ART is open-source and available for free download.

      2. wgsim: wgsim is another widely used short read simulator that generates synthetic reads based on the whole genome sequencing technology. It can simulate reads with different read lengths, error rates, and coverage levels. The wgsim tool is also open-source and available for free download.

      3. PIRS: PIRS (short for Profile-based Illumina pair-end Reads Simulator) is a short read simulator that uses a profile-based approach to generate synthetic reads. It can simulate reads with different sequencing technologies, including Illumina, Ion Torrent, and PacBio. PIRS allows users to customize different sequencing parameters, such as error rates, read lengths, and insert sizes.

      4. SimSeq: SimSeq is a Python-based short read simulator that allows users to simulate reads from different sequencing platforms, including Illumina, PacBio, and Oxford Nanopore. It can also simulate different types of sequencing errors, such as substitution, insertion, and deletion errors.

      5. dwgsim: dwgsim is a short read simulator that can generate synthetic reads from whole genome sequencing data. It is designed to simulate reads from large genomes and can handle complex genome structures, such as translocations and inversions.

      These are just a few examples of the many short read simulators available for bioinformatics research. The choice of the simulator depends on the specific research question and the type of sequencing technology used in the study.

  •   The abundance of a species in a dataset is considered as the fraction of reads that belong to that species. For example, if there is a dataset with 10,000,000 reads and 1,000,000 of them belong to E. coli, then the abundance...
  • Abhi commented on a bookmark CovCal: Coverage / Read Count Calculator 795 days ago
    Sequencing coverage is defined as the average number of reads that covers each base of the reference genome. Estimating the sequencing coverage is very important when you are simulating datasets. The coverage equation is defined as...
  • Abhi bookmarked Covid Spectrum ! 800 days ago
    https://cov-spectrum.org/explore/World/AllSamples/ CoV-Spectrum supports a wide range of search queries. The following sections presents search options of the basic search bar. For information on the advanced search
  • Abhi bookmarked Covid Spectrum ! 800 days ago
    https://cov-spectrum.org/explore/World/AllSamples/ CoV-Spectrum supports a wide range of search queries. The following sections presents search options of the basic search bar. For information on the advanced search
  • Abhi bookmarked Covid Spectrum ! 800 days ago
    https://cov-spectrum.org/explore/World/AllSamples/
  • Abhi bookmarked Executing Snakemake 800 days ago
    This part of the documentation describes the snakemake executable. Snakemake is primarily a command-line tool, so the snakemake executable is the primary way to execute, debug, and visualize...
  • Abhi created a new bio-script Extract the mapped and unmapped reads ! 802 days ago
  • Jit commented on a page titled Phylogenetic for Bioinformatics 802 days ago
    Nice evolutionary distance caculation methods @ https://www.cs.rice.edu/~nakhleh/COMP571/Slides/Phylogenetics-DistanceMethods-Full.pdf
  • Jit commented on a page titled Phylogenetic for Bioinformatics 803 days ago
    Nice tutorial https://www.zoology.ubc.ca/~bio336/Bio336/Lectures/Lecture14/Overheads.html