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

    fastq.gz size for human WGS coverage calculation

    I have got 3 pair fastq.gz file of human WGS, the size are 3.9 + 4.2, 1.7 + 1.8, 1.5 + 1.6 respectively, how to calculate coverage of these results.
    sequence plantform: illumina x ten
    seq model: pair-end 150
    thx
    Last edited by yipukangda; 11-07-2016, 09:22 PM.
    Tags: file size, wgs
  • #2
    If you want average coverage, assuming the data is all human:

    Code:
    avg_coverage=(#reads)*150/3000000000
    To count the reads, you can use Reformat from the BBMap package:

    Code:
    cat *.fastq.gz | reformat.sh in=stdin.fq
    You can get more accurate numbers by mapping the reads after adapter-trimming, since some of the data is probably not human.

    Comment

    • #3
      Originally posted by Brian Bushnell View Post
      If you want average coverage, assuming the data is all human:

      Code:
      avg_coverage=(#reads)*150/3000000000
      To count the reads, you can use Reformat from the BBMap package:

      Code:
      cat *.fastq.gz | reformat.sh in=stdin.fq
      You can get more accurate numbers by mapping the reads after adapter-trimming, since some of the data is probably not human.
      thanks, I estimated like this: file_size x 1/2 x compression fold / genome size

      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 on Modified Bases...
        Yesterday, 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
      Cancer Metastasis: A Deep Dive into Cellular Plasticity by seqadmin
      Started by seqadmin, 04-11-2024, 12:08 PM
      0 responses
      55 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
      51 views
      0 likes
      		 Last Post seqadmin
      by seqadmin
      04-10-2024, 10:19 PM  
      Novel Diagnostic Assay Enhances Ovarian Cancer Detection by seqadmin
      Started by seqadmin, 04-10-2024, 09:21 AM
      0 responses
      45 views
      0 likes
      		 Last Post seqadmin
      by seqadmin
      04-10-2024, 09:21 AM  
      Evolutionary Dynamics of Centromeres: A Comparative Genomic Analysis by seqadmin
      Started by seqadmin, 04-04-2024, 09:00 AM
      0 responses
      55 views
      0 likes
      		 Last Post seqadmin
      by seqadmin
      04-04-2024, 09:00 AM  
      View All
      Working...
      X