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  • AnnaE
    Junior Member
    • Nov 2011
    • 2

    ChIP-seq peak caller that handles biological replicates

    Hi guys,

    I'm quite new to the field and trying to find my way around all available resources is a challenge so I'm asking for some advice here.

    I've preformed ChIP-seq for a transcription factor (thus expecting "narrow" peaks) in biological triplicates complete with input controls.

    To analyze my data I would like a peak caller that can make use of the biological replicates, is there one out there?

    I know I can run each replicate separate and overlap common peaks but if there is software that can make use of the replicates and turn it into statistics I'd prefer that option.

    Best regards,

    Anna
  • dariober
    Senior Member
    • May 2010
    • 311

    #2
    Originally posted by AnnaE View Post
    Hi guys,

    I'm quite new to the field and trying to find my way around all available resources is a challenge so I'm asking for some advice here.

    I've preformed ChIP-seq for a transcription factor (thus expecting "narrow" peaks) in biological triplicates complete with input controls.

    To analyze my data I would like a peak caller that can make use of the biological replicates, is there one out there?

    I know I can run each replicate separate and overlap common peaks but if there is software that can make use of the replicates and turn it into statistics I'd prefer that option.

    Best regards,

    Anna
    Hi Anna,

    It seems what you are looking at is something like the Bioconductor package DiffBind http://www.bioconductor.org/packages.../DiffBind.html

    So you your workflow could be:
    - For each library, align reads to your reference genome
    - Call peaks separately for each library (using he input control) using your favourite peak caller (e.g. macs)
    - Pass aligned reads (bam files) and peak sets to DiffBind for differential binding analysis making use of biological replicates

    Hope this is what you are after...

    All the best
    Dario

    Comment

    • mudshark
      Senior Member
      • Jan 2009
      • 138

      #3
      i think CisGenome (www.biostat.jhsph.edu/~hji/cisgenome/) can do exactly what you want.

      Comment

      • AnnaE
        Junior Member
        • Nov 2011
        • 2

        #4
        Thanks for taking the time to answer, I appreciate it!

        @Mudshark: Thanks, that looks very interesting indeed. I'll be trying it out for sure!

        @dariober: At this stage I'm not looking for differential binding, I only have ChIP-seq from one condition so what I want is TF binding map so to speak.

        Best regards!
        Anna

        Comment

        • jbrwn
          Member
          • Mar 2011
          • 37

          #5
          Originally posted by AnnaE View Post
          Thanks for taking the time to answer, I appreciate it!

          @Mudshark: Thanks, that looks very interesting indeed. I'll be trying it out for sure!

          @dariober: At this stage I'm not looking for differential binding, I only have ChIP-seq from one condition so what I want is TF binding map so to speak.

          Best regards!
          Anna
          diffbind was suggested because if you were to use something like macs to call peaks, it would not take biological replicates into consideration. after calling peaks in macs, you would use diffbind to perform the overlapping of the peaks to find peaks called in all biological replicates. similar work could also easily be done using bedtools intersect.

          edit: or just use cisgenome as was suggested.

          Comment

          • qtrinh
            Member
            • May 2008
            • 20

            #6
            Hi,
            You can also try IDR:



            Q

            Comment

            • troublezhang
              Junior Member
              • Jan 2011
              • 2

              #7
              Hi, for replicated ChIP-Seq data, you could try running PePr (https://ones.ccmb.med.umich.edu/wiki/PePr/).

              Comment

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