Can You Do Some Recommendations For An Indel/Snp/Cnv Simulator?
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12.9 years ago
Pascal ★ 1.5k

Hi

I'm writing a piece of software to simulate Structural Variations in Genome. So far, I have written a first version with a simple set of features:

  • accept a FASTA in input,
  • write the new genome into a new FASTA file and the variations into a VCF file,
  • simulate SNP,
  • simulate indels,
  • the frequency of SNP, Insertion and Deletions are configurable.

Before going ahead with new features, I would like to hear from your feedback and recommendations.

I thought that one of the possible improvements (to make it more "real") could be to be able to control the frequency of variants depending on the region of the chromosome: to generate for instance more variants in non-coding regions.

Thanks in adance for any input!

variant structural genome simulation • 3.7k views
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12.9 years ago

some trivial suggestions:

  • more SNPs in the introns, non-coding regions
  • more SNPs in the less conserved regions ( see the GERP score)
  • more synonymous snps in the exons.
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Thanks for your answer. To know if my REF base is whether in intron or exon I plan to use BED files generated from the USCS Table tool. Do you think it is a good idea?

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BTW Pierre, in order to generate synonymous SNPs I have to read groups of 3 nucleotides from genome (then see if a base change will be synonymous or not) AND to detect also frame-shift. Is there anything else I should take care of if I decide to implement simulation of sSNP?

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you could use the human codon frequencies ?

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12.9 years ago
lh3 33k

To the best of my knowledge, no one knows how to simulate CNV/SV/indel to an acceptable accuracy. If you really want to get a good simulation, you can simulate reads from a de novo assembly and then get the positions of simulated reads from an assembly-to-assembly alignment. This procedure is quite complicated, but is closest to the truth.

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Thanks for your answer. It is interesting but for the time being I just can't invest too much time :-S I'm looking for a trade-off between complexity of the algo and getting closer to the reality.

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