I have ATAC-seq data for two yeast species. I have called peaks with MACS2 and did occupancy and affinity analysis of peaks with DiffBind. Now I need to find motifs of TF binding sites in the peaks and compare those motifs between two species.

There is a ton of software and databases for doing the task, so I am a bit confused on how to start with the analysis. Can anybody share the experience with motif search and motif comparisons, specifically which tools are considered as "best practices" in the field?

Thanks

There are basically 2 genres of tools that one can use: those that search for motifs in peaks and those that do footprinting. The former group are well represented by homer and the meme suite (MEME-ChIP in particular). The latter group is mostly represented by wellington. I'm generally not a fan of footprinting with ATAC-seq data, the coverage needed to do it properly is just absurdly high. Given that, one of homer/meme/etc. would be my preference. I generally find homer to be annoying to use, so I personally prefer MEME, but that's more of a personal preference than a best practice.

Depending on what your exact question is, you might consider chromVAR. It takes as input a set of peaks, e.g. the combined peak sets of your two species, and the aligned BAM files to infer differential motif accessability. In the end, you'll get a list of motifs that are differentially accessable in either condition. chromVAR does that by computing a variability score for each motif. For this, it first matches a set of motifs, e.g. from JASPAR to the peaks and then checks if regions with a certain motif are more or less accessible in condition1 vs. condition2. Even though it may primarily been developed for single-cell ATAC-seq, I had some good success so far with it on bulk ATAC-seq data, producing results that made biological sense and were supported by other experiments.

You might want to take a look at this post: A: How can I find motifs under individual ATAC-peaks?

However, i-cisTarget doesn't have yeast annotations (at least as far as I can tell).

For general peak enrichment, I think the species is also a limitation for Broad-Enrich or GREAT, but perhaps you can look at citations for papers (or the papers themselves) to get some other ideas (but maybe that is a little off target from your motif question).

Hi, you can try HINT(http://www.regulatory-genomics.org/hint/tutorial/). It can do the comparation, and works well for me.