The Application of Microsatellite Markers as Molecular Tools for Studying Genomic Variability in Vertebrate Populations

The Application of Microsatellite Markers as Molecular Tools for Studying Genomic Variability in Vertebrate Populations

Vertebrate molecular genetic research methods typically employ single genetic loci (monolocus markers) and those involving a variable number of loci (multilocus markers). The former often employ microsatellites that ensure accuracy in establishing inbreeding, tracking pan-generational dynamics of ge...

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Bibliographic Details
Main Authors: Roman O. Kulibaba, Kornsorn Srikulnath, Worapong Singchat, Yuriy V. Liashenko, Darren K. Griffin, Michael N. Romanov
Format: Article
Language:English
Published: MDPI AG 2025-06-01
Series:Current Issues in Molecular Biology
Subjects:
microsatellites
molecular markers
vertebrate species
animal populations
genetic diversity
alleles
Online Access:https://www.mdpi.com/1467-3045/47/6/447
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Summary:Vertebrate molecular genetic research methods typically employ single genetic loci (monolocus markers) and those involving a variable number of loci (multilocus markers). The former often employ microsatellites that ensure accuracy in establishing inbreeding, tracking pan-generational dynamics of genetic parameters, assessing genetic purity, and facilitating genotype/phenotype correlations. They also enable the determination and identification of unique alleles by studying and managing marker-assisted breeding regimes to control the artificial selection of agriculturally important traits. Microsatellites consist of 2–6 nucleotides that repeat numerous times and are widely distributed throughout genomes. Their main advantages lie in their ease of use for PCR amplification, their known genome localization, and their incredible polymorphism (variability) levels. Robust lab-based molecular technologies are supplemented by high-quality statistics and bioinformatics and have been widely employed, especially in those instances when more costly, high throughput techniques are not available. Here, we consider that human and livestock microsatellite studies have been a “roadmap” for the genetics, breeding, and conservation of wildlife and rare animal breeds. In this context, we examine humans and other primates, cattle and other artiodactyls, chickens and other birds, carnivores (cats and dogs), elephants, reptiles, amphibians, and fish. Studies originally designed for mass animal production have thus been adapted to save less abundant species, highlighting the need for molecular scientists to consider where research may be applied in different disciplines.
ISSN:1467-3037
1467-3045

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