The use of microsatellite DNA markers for soybean genotype identification

Conventional morphological and pigementation traits, as well as disease resistance, have been used to distinguish the uniqueness of new soybean cultivars for purposes of plant variety protection. With increasing numbers of cultivars and a finite number of conventional characters, it has become appar...

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Bibliographic Details
Published in:Theoretical and applied genetics 1995, Vol.90 (1), p.43-48
Main Authors: Rongwen, J, Akkaya, M.S, Bhagwat, A.A, Lavi, U, Cregan, P.B. (United States Dept. of Aagriculture/Agricultural Research Service, Beltsville (USA). Soybean and Alfalfa Research Lab.)
Format: Article
Language:English
Subjects:
ADN
Biological and medical sciences
Classical genetics, quantitative genetics, hybrids
DNA fingerprinting
DNA markers
Fundamental and applied biological sciences. Psychology
Gene diversity
Genetics of eukaryotes. Biological and molecular evolution
GENOTIPOS
GENOTYPE
GLYCINE MAX
IDENTIFICACION
IDENTIFICATION
MARCADORES GENETICOS
MARQUEUR GENETIQUE
Pflanzenzuechtung
Plant variety protection
Pteridophyta, spermatophyta
RECURSOS GENETICOS
RESSOURCE GENETIQUE
SECUENCIA NUCLEICA
SEQUENCE NUCLEIQUE
Simple sequence repeats
VARIACION GENETICA
VARIATION GENETIQUE
Vegetals
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Summary:Conventional morphological and pigementation traits, as well as disease resistance, have been used to distinguish the uniqueness of new soybean cultivars for purposes of plant variety protection. With increasing numbers of cultivars and a finite number of conventional characters, it has become apparent that such traits will not suffice to establish uniqueness. The objective of thiswork was to provide an initial evaluation of micro satellite or simple-sequence-repeat (SSR) DNA markers to develop unique DNA profiles of soybean genotypes. Micro satellites are DNA sequences such as (AT)n/(TA)n and (ATT)n/(TAA)n that are composed of tandemly repeated 2-5-basepair DNA core sequences. The DNA sequences flanking microsatellites are generally conserved allowing the selection of polymerase chain reaction (PCR) primers that will amplify the intervening SSR. Variation in the number of tandem repeats "n", results in PCR product length differences. The SSR alleles present at three (AT)n/(TA)n and four (ATT)n/(TAA)n lociwere determined in each of 96 diverse soybean genotypes. Between 11 and 26 alleles were found at each of the seven loci. Only twogenotypes had identical SSR allelic profiles and these had very similar pedigrees. The gene diversity for the seven markers averaged 0.87 for all 96 genotypes and 0.74 for a subset of 26 North American cultivars. These are much higher than soybean gene diversity values obtained using RFLP markers, and are similar to the average values obtained for human microsatellite markers. SSR markers provide an excellent complement to the conventional markers that are currently used to characterize soybean genotypes.
ISSN:0040-5752
1432-2242
DOI:10.1007/bf00220994