Dinucleotide Repeats in the Drosophila and Human Genomes Have Complex, Length-Dependent Mutation Processes | Zendy

Peter Calabrese | Zendy; Rick Durrett | Zendy

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Dinucleotide Repeats in the Drosophila and Human Genomes Have Complex, Length-Dependent Mutation Processes

Author(s) -

Peter Calabrese,

Rick Durrett

Publication year - 2003

Publication title -

molecular biology and evolution

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 6.637

H-Index - 218

eISSN - 1537-1719

pISSN - 0737-4038

DOI - 10.1093/molbev/msg084

Subject(s) - biology , microsatellite , genome , genetics , mutation , mutation rate , human genome , drosophila (subgenus) , evolutionary biology , dinucleotide repeat , maximum likelihood , computational biology , gene , statistics , allele , mathematics

We use methods of maximum likelihood estimation to fit several microsatellite mutation models to the observed length distribution of dinucletoide repeats in the Drosophila and human genomes. All simple models are rejected by this procedure. Two new models, one with quadratic and another with piecewise linear slippage rates, have the best fits and agree with recent experimental studies by predicting that long microsatellites have a bias toward contractions.

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