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

    Understanding DESeq2 dispersion estimates

    I construct a toy dataset with
    Code:
    > m
      Control  Case
GeneA    3891  4591
GeneB   69543 72122
> colData
             cc
Case       Case
Control Control
> d <- DESeqDataSetFromMatrix(m, colData=colData, design =~cc)
    Then, I get the gene-wise dispersion
    Code:
    > d <- estimateSizeFactors(d)
> d <- estimateDispersionsGeneEst(d)
> mcols(d)
DataFrame with 2 rows and 5 columns
   baseMean     baseVar   allZero dispGeneEst dispGeneEstConv
  <numeric>   <numeric> <logical>   <numeric>       <logical>
1  4228.732    37181.63     FALSE 0.001842478            TRUE
2 70857.604 10439534.06     FALSE 0.002065126            TRUE
    Now, I want to check i the dispersion estimates are just fitting a negative binomial on each gene's count (pooled conditions).
    Code:
    > fitdistr(as.vector(round(counts(d, normalize=T)[1,])),"negative binomial")
     size         mu    
  1207.3898   4228.5000 
 (1543.6506) (  97.5636)
> fitdistr(as.vector(round(counts(d, normalize=T)[2,])),"negative binomial")
      size          mu    
    970.5831   70857.5000 
 (  982.6550) ( 1616.2617)

    Now the dispersion is the inverse of size, so it should be
    Code:
    > c(1/1207.3898, 1/970.5831)
[1] 0.0008282329 0.0010303085
    But this is different from
    Code:
    > mcols(d)$dispGeneEst
[1] 0.001842478 0.002065126
    Tags: deseq2, differential expression, dispersion, negative binomial
  • #2
    No, it does not work like that. First of all, DESeq2's model is that the counts are NB-distributed. You have fit an NB distribution to the rounded normalized counts instead. Why would you do that? Also, you don't have any residual degrees of freedom in your setting, so your example is ill-defined anyway.

    Maybe have a look at our preprint, with all the mathematical details in the Methods section: http://doi.org/10.1101/002832

    Comment

    • #3
      Last month, Gordon Smyth wrote on the Bioconductor list that edgeR with rounded counts would be an acceptable input for the analysis. EBseq, however, handles this kind of data without rounding.

      Comment

      • #4
        Of course, all these tools will accept any kind of integer data, no matter whether it is real counts or some other data that has been rounded to make it look like counts. Whether the latter makes any sense depends a lot on circumstances. (By definition of the English word, a "count" is an integer. If you need to round it first, it was not a count in the first place. Hence, "rounded counts" is a contradiction in terms -- what Gordon meant is simply that if you have non-integer data which are for some reason more or less close to the counts that you should have if you had counted correctly, the rounding is fine.)

        But what does all this have to do with the OP's question, and with my answer, neither of which was about using rounded something as input?

        Comment

        • #5
          Thank you for clarifying that. I hadn't read the code.

          Comment

          Previous template Next

          Latest Articles

          Collapse
          • seqadmin
            Best Practices for Single-Cell Sequencing Analysis
            by seqadmin



            While isolating and preparing single cells for sequencing was historically the bottleneck, recent technological advancements have shifted the challenge to data analysis. This highlights the rapidly evolving nature of single-cell sequencing. The inherent complexity of single-cell analysis has intensified with the surge in data volume and the incorporation of diverse and more complex datasets. This article explores the challenges in analysis, examines common pitfalls, offers...
            Yesterday, 07:15 AM
          • seqadmin
            Latest Developments in Precision Medicine
            by seqadmin



            Technological advances have led to drastic improvements in the field of precision medicine, enabling more personalized approaches to treatment. This article explores four leading groups that are overcoming many of the challenges of genomic profiling and precision medicine through their innovative platforms and technologies.

            Somatic Genomics
            “We have such a tremendous amount of genetic diversity that exists within each of us, and not just between us as individuals,”...
            05-24-2024, 01:16 PM
          View All

          ad_right_rmr

          Collapse

          News

          Collapse
          Topics Statistics Last Post
          The Adaptation of the Cell Cycle in Multiciliated Cells by seqadmin
          Started by seqadmin, Today, 06:58 AM
          0 responses
          13 views
          0 likes
          		 Last Post seqadmin
          by seqadmin
          Today, 06:58 AM  
          New Method for DNA Sequence Amplification by seqadmin
          Started by seqadmin, Yesterday, 08:18 AM
          0 responses
          19 views
          0 likes
          		 Last Post seqadmin
          by seqadmin
          Yesterday, 08:18 AM  
          New Tools Enhance Single-Molecule DNA Analysis with Minimal Samples by seqadmin
          Started by seqadmin, Yesterday, 08:04 AM
          0 responses
          18 views
          0 likes
          		 Last Post seqadmin
          by seqadmin
          Yesterday, 08:04 AM  
          SIX2 Protein Identified as a Key Player in Prostate Cancer Treatment Resistance by seqadmin
          Started by seqadmin, 06-03-2024, 06:55 AM
          0 responses
          13 views
          0 likes
          		 Last Post seqadmin
          by seqadmin
          06-03-2024, 06:55 AM  
          View All
          Working...
          X