Why chip-seq is strand specific?
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8.1 years ago
bxia ▴ 180

Why chip-seq is strand specific?

The antibody will bind to double strand DNA, right?

ChIP-Seq • 5.2k views
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8.1 years ago

ChIP-seq itself is not strand specific. The reads generated when performing ChIP-seq are strand specific, which is important. The reads do not indicate the location of the TF binding or histone modification, they are at the end of the fragment that includes the TF binding position. The fact that the reads on the two strands should be seperated by ~ the average fragment size of your library is an important quality check for the data.

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How do you reconcile this answer with Devon's?

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RNA-seq can be "stranded" because one strand is transcribed into an mRNA. This is interesting because there are cases where a protein coding gene can be transcribe from one strand, and a non-coding RNA can be transcribed from the opposite strand. Chip-seq doesn't really work that way. You are just looking for the location of a TF binding event or Histone modification. The TF binds to a fragment of double stranded DNA. The first ~50 bases of both strands are sequenced, leading to reads that are separated by the size of the original double strand fragment. While you will not be able to deduce from these reads weather the TF binds primarily to one strand or both. You can use the distance between the reads as a quality measure. See the work of Anshul Kundaje - https://sites.google.com/site/anshulkundaje/projects/idr - "It is important to check the cross-correlation plot that is produced by SPP to make sure the estimated fragment length is appropriate."

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8.1 years ago
  1. It's generally not strand specific.
  2. The antibody doesn't bind DNA, it binds a protein that binds DNA. Of course, the protein is typically binding to both strands of DNA (often one of the grooves), which goes back to point 1.
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