Multi-individual microsatellite identification : A multiple genome approach to microsatellite design (MiMi)

Fox, G. and Preziosi, R.F. and Antwis, R.E. and Benavides-Serrato, M. and Combe, F.J. and Harris, W.E. and Hartley, I.R. and Kitchener, A.C. and de Kort, S.R. and Nekaris, A.-I. and Rowntree, J.K. (2019) Multi-individual microsatellite identification : A multiple genome approach to microsatellite design (MiMi). Molecular Ecology Resources, 19 (6). pp. 1672-1680. ISSN 1755-098X

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Abstract

Bespoke microsatellite marker panels are increasingly affordable and tractable to researchers and conservationists. The rate of microsatellite discovery is very high within a shotgun genomic data set, but extensive laboratory testing of markers is required for confirmation of amplification and polymorphism. By incorporating shotgun next‐generation sequencing data sets from multiple individuals of the same species, we have developed a new method for the optimal design of microsatellite markers. This new tool allows us to increase the rate at which suitable candidate markers are selected by 58% in direct comparisons and facilitate an estimated 16% reduction in costs associated with producing a novel microsatellite panel. Our method enables the visualisation of each microsatellite locus in a multiple sequence alignment allowing several important quality checks to be made. Polymorphic loci can be identified and prioritised. Loci containing fragment‐length‐altering mutations in the flanking regions, which may invalidate assumptions regarding the model of evolution underlying variation at the microsatellite, can be avoided. Priming regions containing point mutations can be detected and avoided, helping to reduce sample‐site‐marker specificity arising from genetic isolation, and the likelihood of null alleles occurring. We demonstrate the utility of this new approach in two species: an echinoderm and a bird. Our method makes a valuable contribution towards minimising genotyping errors and reducing costs associated with developing a novel marker panel. The Python script to perform our method of multi‐individual microsatellite identification (MiMi) is freely available from GitHub (https://github.com/graemefox/mimi).

Item Type:
Journal Article
Journal or Publication Title:
Molecular Ecology Resources
Uncontrolled Keywords:
/dk/atira/pure/subjectarea/asjc/1100/1105
Subjects:
?? cost‐effective marker developmenthigh‐throughput sequencingin silico quality controlmicrosatellite designpolymorphic loci detectionshort tandem repeat (str)ecology, evolution, behavior and systematicsgeneticsbiotechnology ??
ID Code:
136564
Deposited By:
Deposited On:
06 Sep 2019 12:25
Refereed?:
Yes
Published?:
Published
Last Modified:
15 Jul 2024 19:50