Seqanswers Leaderboard Ad

Collapse

Announcement

Collapse
No announcement yet.
X
Collapse
 
  • Page of 1
  • Filter
  • Time
  • Show
Clear All
new posts
Previous template Next
  • #1

    Filtering "merge.gtf" (from cuffmerge) by redundance

    I am trying to filter my merge.gtf file produced by ~100 samples by redundancy, I would like to remove the transcripts/isoforms that occur in only one sample. But I didnt find a way to track this information (where each transcript come from) easily!

    Thanks a lot!
    Tags: cufflinks, cuffmerge, filter, isoforms, merge
  • #2
    Ok, I solved my problem just by using cuffcompare instead of cuffmerge.

    Comment

    • #3
      Here's another thread on this topic of whether to use cuffmerge or cuffcompare. Cole Trapnell and the cufflinks team is soon releasing a protocol paper that will hopefully address some of these issues.

      You might think twice about using cuffcompare over cuffmerge.
      Last edited by turnersd; 02-13-2012, 05:42 AM. Reason: cuffmerge vs cuffcompare

      Comment

      • #4
        Thank you turnersd, actually I am using the second approach described on that thread "assemble each bam and cuffcompare them to get a combined.gtf".

        Comment

        Previous template Next

        Latest Articles

        Collapse
        • seqadmin
          Essential Discoveries and Tools in Epitranscriptomics
          by seqadmin




          The field of epigenetics has traditionally concentrated more on DNA and how changes like methylation and phosphorylation of histones impact gene expression and regulation. However, our increased understanding of RNA modifications and their importance in cellular processes has led to a rise in epitranscriptomics research. “Epitranscriptomics brings together the concepts of epigenetics and gene expression,” explained Adrien Leger, PhD, Principal Research Scientist...
          04-22-2024, 07:01 AM
        • seqadmin
          Current Approaches to Protein Sequencing
          by seqadmin


          Proteins are often described as the workhorses of the cell, and identifying their sequences is key to understanding their role in biological processes and disease. Currently, the most common technique used to determine protein sequences is mass spectrometry. While still a valuable tool, mass spectrometry faces several limitations and requires a highly experienced scientist familiar with the equipment to operate it. Additionally, other proteomic methods, like affinity assays, are constrained...
          04-04-2024, 04:25 PM
        View All

        ad_right_rmr

        Collapse

        News

        Collapse
        Topics Statistics Last Post
        Expanding the Horizons of Cellular Research with the Single Cell Atlas by seqadmin
        Started by seqadmin, Today, 11:49 AM
        0 responses
        10 views
        0 likes
        		 Last Post seqadmin
        by seqadmin
        Today, 11:49 AM  
        Genetic Variants and Diabetes Risk in Childhood Cancer Survivors by seqadmin
        Started by seqadmin, Yesterday, 08:47 AM
        0 responses
        16 views
        0 likes
        		 Last Post seqadmin
        by seqadmin
        Yesterday, 08:47 AM  
        Cancer Metastasis: A Deep Dive into Cellular Plasticity by seqadmin
        Started by seqadmin, 04-11-2024, 12:08 PM
        0 responses
        61 views
        0 likes
        		 Last Post seqadmin
        by seqadmin
        04-11-2024, 12:08 PM  
        Proteogenomic Profiles Offer New Clues in Prostate Cancer by seqadmin
        Started by seqadmin, 04-10-2024, 10:19 PM
        0 responses
        60 views
        0 likes
        		 Last Post seqadmin
        by seqadmin
        04-10-2024, 10:19 PM  
        View All
        Working...
        X