4.6 Review

Microsatellites as Molecular Markers with Applications in Exploitation and Conservation of Aquatic Animal Populations

Journal

GENES
Volume 14, Issue 4, Pages -

Publisher

MDPI
DOI: 10.3390/genes14040808

Keywords

biodiversity; conservation genetics; aquaculture; molecular population genetics; microsatellite DNA; SNP; allozymes and mtDNA; selection; aquatic organisms

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A new type of molecular marker called single nucleotide polymorphism (SNP) has challenged the existing applications of microsatellites, which are considered as hypervariable neutral molecular markers. However, microsatellites still have advantages in kinship and parentage analysis, genetic diversity research, and can be used in combination with SNPs for mapping QTL.
A large number of species and taxa have been studied for genetic polymorphism. Microsatellites have been known as hypervariable neutral molecular markers with the highest resolution power in comparison with any other markers. However, the discovery of a new type of molecular marker-single nucleotide polymorphism (SNP) has put the existing applications of microsatellites to the test. To ensure good resolution power in studies of populations and individuals, a number of microsatellite loci from 14 to 20 was often used, which corresponds to about 200 independent alleles. Recently, these numbers have tended to be increased by the application of genomic sequencing of expressed sequence tags (ESTs) and the choice of the most informative loci for genotyping depends on the aims of research. Examples of successful applications of microsatellite molecular markers in aquaculture, fisheries, and conservation genetics in comparison to SNPs are summarized in this review. Microsatellites can be considered superior markers in such topics as kinship and parentage analysis in cultured and natural populations, the assessment of gynogenesis, androgenesis and ploidization. Microsatellites can be coupled with SNPs for mapping QTL. Microsatellites will continue to be used in research of genetic diversity in cultured stocks, and also in natural populations as an economically advantageous genotyping technique.

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