Analysis of average standardized SSR allele size supports domestication of soybean along the Yellow River

Analysis of average standardized SSR allele size supports domestication of soybean along the Yellow River

Soybean (Glycine max) was domesticated in China from its wild progenitor G. soja. The geographic region of domestication is, however, not exactly known. Here we employed the directional evolution of SSR (microsatellite) repeats (which mutate preferentially into longer alleles) to analyze the domestication process and to infer the most ancestral soybean landraces. In this study, the average standardized SSR allele sizes across 42 SSR loci in 62 accessions of G. soja were determined, and compared with those in 1504 landraces of G. max, collected from all over China and representing the diversity in the gene bank. The standardized SSR allele size in the landraces (0.009) was significantly (P = 8.63 × 10-58) larger than those in G. soja (-0.406). Pairwise comparisons between inferred clusters and sub-clusters of Chinese landraces indicated that the average standardized SSR allele size also increased with the further differentiation of landraces populations. Spring-sowed types had the shortest size, followed by summer-sown types, while the sub-cluster of autumn-sown type had the largest length. The spring-sowed landraces located near the middle region along the Yellow River had the smallest allele sizes, indicating that this is the most ancestral population of cultivated soybean. We concluded that soybean was most likely domesticated in the middle region of the Yellow River in central China, initially as a spring-sown type.

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Main Authors: Li, Y.H., Zhang, C., Smulders, M.J.M., Li, W., Ma, Y.S., Xu, Qu, Chang, R.Z., Qiu, Li-Juan
Format: Article/Letter to editor biblioteca
Language:English
Subjects:directional evolution, genetic diversity, glycine-max, landraces, length, maize, markers, microsatellite evolution, origin, wild,
Online Access:https://research.wur.nl/en/publications/analysis-of-average-standardized-ssr-allele-size-supports-domesti
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spelling dig-wur-nl-wurpubs-4260132024-08-20 Li, Y.H. Zhang, C. Smulders, M.J.M. Li, W. Ma, Y.S. Xu, Qu Chang, R.Z. Qiu, Li-Juan Article/Letter to editor Genetic Resources and Crop Evolution 60 (2013) 2 ISSN: 0925-9864 Analysis of average standardized SSR allele size supports domestication of soybean along the Yellow River 2013 Soybean (Glycine max) was domesticated in China from its wild progenitor G. soja. The geographic region of domestication is, however, not exactly known. Here we employed the directional evolution of SSR (microsatellite) repeats (which mutate preferentially into longer alleles) to analyze the domestication process and to infer the most ancestral soybean landraces. In this study, the average standardized SSR allele sizes across 42 SSR loci in 62 accessions of G. soja were determined, and compared with those in 1504 landraces of G. max, collected from all over China and representing the diversity in the gene bank. The standardized SSR allele size in the landraces (0.009) was significantly (P = 8.63 × 10-58) larger than those in G. soja (-0.406). Pairwise comparisons between inferred clusters and sub-clusters of Chinese landraces indicated that the average standardized SSR allele size also increased with the further differentiation of landraces populations. Spring-sowed types had the shortest size, followed by summer-sown types, while the sub-cluster of autumn-sown type had the largest length. The spring-sowed landraces located near the middle region along the Yellow River had the smallest allele sizes, indicating that this is the most ancestral population of cultivated soybean. We concluded that soybean was most likely domesticated in the middle region of the Yellow River in central China, initially as a spring-sown type. en application/pdf https://research.wur.nl/en/publications/analysis-of-average-standardized-ssr-allele-size-supports-domesti 10.1007/s10722-012-9873-z https://edepot.wur.nl/216142 directional evolution genetic diversity glycine-max landraces length maize markers microsatellite evolution origin wild Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic directional evolution
genetic diversity
glycine-max
landraces
length
maize
markers
microsatellite evolution
origin
wild
directional evolution
genetic diversity
glycine-max
landraces
length
maize
markers
microsatellite evolution
origin
wild
spellingShingle directional evolution
genetic diversity
glycine-max
landraces
length
maize
markers
microsatellite evolution
origin
wild
directional evolution
genetic diversity
glycine-max
landraces
length
maize
markers
microsatellite evolution
origin
wild
Li, Y.H.
Zhang, C.
Smulders, M.J.M.
Li, W.
Ma, Y.S.
Xu, Qu
Chang, R.Z.
Qiu, Li-Juan
Analysis of average standardized SSR allele size supports domestication of soybean along the Yellow River
description Soybean (Glycine max) was domesticated in China from its wild progenitor G. soja. The geographic region of domestication is, however, not exactly known. Here we employed the directional evolution of SSR (microsatellite) repeats (which mutate preferentially into longer alleles) to analyze the domestication process and to infer the most ancestral soybean landraces. In this study, the average standardized SSR allele sizes across 42 SSR loci in 62 accessions of G. soja were determined, and compared with those in 1504 landraces of G. max, collected from all over China and representing the diversity in the gene bank. The standardized SSR allele size in the landraces (0.009) was significantly (P = 8.63 × 10-58) larger than those in G. soja (-0.406). Pairwise comparisons between inferred clusters and sub-clusters of Chinese landraces indicated that the average standardized SSR allele size also increased with the further differentiation of landraces populations. Spring-sowed types had the shortest size, followed by summer-sown types, while the sub-cluster of autumn-sown type had the largest length. The spring-sowed landraces located near the middle region along the Yellow River had the smallest allele sizes, indicating that this is the most ancestral population of cultivated soybean. We concluded that soybean was most likely domesticated in the middle region of the Yellow River in central China, initially as a spring-sown type.
format Article/Letter to editor
topic_facet directional evolution
genetic diversity
glycine-max
landraces
length
maize
markers
microsatellite evolution
origin
wild
author Li, Y.H.
Zhang, C.
Smulders, M.J.M.
Li, W.
Ma, Y.S.
Xu, Qu
Chang, R.Z.
Qiu, Li-Juan
author_facet Li, Y.H.
Zhang, C.
Smulders, M.J.M.
Li, W.
Ma, Y.S.
Xu, Qu
Chang, R.Z.
Qiu, Li-Juan
author_sort Li, Y.H.
title Analysis of average standardized SSR allele size supports domestication of soybean along the Yellow River
title_short Analysis of average standardized SSR allele size supports domestication of soybean along the Yellow River
title_full Analysis of average standardized SSR allele size supports domestication of soybean along the Yellow River
title_fullStr Analysis of average standardized SSR allele size supports domestication of soybean along the Yellow River
title_full_unstemmed Analysis of average standardized SSR allele size supports domestication of soybean along the Yellow River
title_sort analysis of average standardized ssr allele size supports domestication of soybean along the yellow river
url https://research.wur.nl/en/publications/analysis-of-average-standardized-ssr-allele-size-supports-domesti
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