Genetic Diversity and Population Structure of Soybean Lines Adapted to Sub-Saharan Africa Using Single Nucleotide Polymorphism (SNP) Markers

Genetic Diversity and Population Structure of Soybean Lines Adapted to Sub-Saharan Africa Using Single Nucleotide Polymorphism (SNP) Markers

Soybean productivity in sub-Saharan Africa (SSA) is less than half of the global average yield. To plug the productivity gap, further improvement in grain yield must be attained by enhancing the genetic potential of new cultivars that depends on the genetic diversity of the parents. Hence, our aim w...

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Main Authors: Subhash Chander, Ana Luísa Garcia-Oliveira, Melaku Gedil, Trushar Shah, Gbemisola Oluwayemisi Otusanya, Robert Asiedu, Godfree Chigeza
Format: Article
Language:English
Published: MDPI AG 2021-03-01
Series:Agronomy
Subjects:
genetic diversity
population structure
KASP SNP markers
soybean
Online Access:https://www.mdpi.com/2073-4395/11/3/604
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spelling doaj-e2a7a5c3ee8c4aa6bad4d3e59eb00f362021-03-23T00:04:49ZengMDPI AGAgronomy2073-43952021-03-011160460410.3390/agronomy11030604Genetic Diversity and Population Structure of Soybean Lines Adapted to Sub-Saharan Africa Using Single Nucleotide Polymorphism (SNP) MarkersSubhash Chander0Ana Luísa Garcia-Oliveira1Melaku Gedil2Trushar Shah3Gbemisola Oluwayemisi Otusanya4Robert Asiedu5Godfree Chigeza6International Institute of Tropical Agriculture (IITA), PMB 5320, Ibadan 200001, NigeriaInternational Institute of Tropical Agriculture (IITA), PMB 5320, Ibadan 200001, NigeriaInternational Institute of Tropical Agriculture (IITA), PMB 5320, Ibadan 200001, NigeriaInternational Institute of Tropical Agriculture (IITA), PMB 5320, Ibadan 200001, NigeriaInternational Institute of Tropical Agriculture (IITA), PMB 5320, Ibadan 200001, NigeriaInternational Institute of Tropical Agriculture (IITA), PMB 5320, Ibadan 200001, NigeriaInternational Institute of Tropical Agriculture-IITA SARAH Campus, Lusaka 10100, ZambiaSoybean productivity in sub-Saharan Africa (SSA) is less than half of the global average yield. To plug the productivity gap, further improvement in grain yield must be attained by enhancing the genetic potential of new cultivars that depends on the genetic diversity of the parents. Hence, our aim was to assess genetic diversity and population structure of elite soybean genotypes, mainly released cultivars and advanced selections in SSA. In this study, a set of 165 lines was genotyped with high-throughput single nucleotide polymorphism (SNP) markers covering the complete genome of soybean. The genetic diversity (0.414) was high considering the bi-allelic nature of SNP markers. The polymorphic information content (PIC) varied from 0.079 to 0.375, with an average of 0.324 and about 49% of the markers had a PIC value above 0.350. Cluster analysis grouped all the genotypes into three major clusters. The model-based STRUCTURE and discriminant analysis of principal components (DAPC) exhibited high consistency in the allocation of lines in subpopulations or groups. Nonetheless, they presented some discrepancy and identified the presence of six and five subpopulations or groups, respectively. Principal coordinate analysis revealed more consistency with subgroups suggested by DAPC analysis. Our results clearly revealed the broad genetic base of TGx (Tropical <i>Glycine max</i>) lines that soybean breeders may select parents for crossing, testing and selection of future cultivars with desirable traits for SSA.https://www.mdpi.com/2073-4395/11/3/604genetic diversitypopulation structureKASP SNP markerssoybean
collection DOAJ
language English
format Article
sources DOAJ
author Subhash Chander
Ana Luísa Garcia-Oliveira
Melaku Gedil
Trushar Shah
Gbemisola Oluwayemisi Otusanya
Robert Asiedu
Godfree Chigeza
spellingShingle Subhash Chander
Ana Luísa Garcia-Oliveira
Melaku Gedil
Trushar Shah
Gbemisola Oluwayemisi Otusanya
Robert Asiedu
Godfree Chigeza
Genetic Diversity and Population Structure of Soybean Lines Adapted to Sub-Saharan Africa Using Single Nucleotide Polymorphism (SNP) Markers
Agronomy
genetic diversity
population structure
KASP SNP markers
soybean
author_facet Subhash Chander
Ana Luísa Garcia-Oliveira
Melaku Gedil
Trushar Shah
Gbemisola Oluwayemisi Otusanya
Robert Asiedu
Godfree Chigeza
author_sort Subhash Chander
title Genetic Diversity and Population Structure of Soybean Lines Adapted to Sub-Saharan Africa Using Single Nucleotide Polymorphism (SNP) Markers
title_short Genetic Diversity and Population Structure of Soybean Lines Adapted to Sub-Saharan Africa Using Single Nucleotide Polymorphism (SNP) Markers
title_full Genetic Diversity and Population Structure of Soybean Lines Adapted to Sub-Saharan Africa Using Single Nucleotide Polymorphism (SNP) Markers
title_fullStr Genetic Diversity and Population Structure of Soybean Lines Adapted to Sub-Saharan Africa Using Single Nucleotide Polymorphism (SNP) Markers
title_full_unstemmed Genetic Diversity and Population Structure of Soybean Lines Adapted to Sub-Saharan Africa Using Single Nucleotide Polymorphism (SNP) Markers
title_sort genetic diversity and population structure of soybean lines adapted to sub-saharan africa using single nucleotide polymorphism (snp) markers
publisher MDPI AG
series Agronomy
issn 2073-4395
publishDate 2021-03-01
description Soybean productivity in sub-Saharan Africa (SSA) is less than half of the global average yield. To plug the productivity gap, further improvement in grain yield must be attained by enhancing the genetic potential of new cultivars that depends on the genetic diversity of the parents. Hence, our aim was to assess genetic diversity and population structure of elite soybean genotypes, mainly released cultivars and advanced selections in SSA. In this study, a set of 165 lines was genotyped with high-throughput single nucleotide polymorphism (SNP) markers covering the complete genome of soybean. The genetic diversity (0.414) was high considering the bi-allelic nature of SNP markers. The polymorphic information content (PIC) varied from 0.079 to 0.375, with an average of 0.324 and about 49% of the markers had a PIC value above 0.350. Cluster analysis grouped all the genotypes into three major clusters. The model-based STRUCTURE and discriminant analysis of principal components (DAPC) exhibited high consistency in the allocation of lines in subpopulations or groups. Nonetheless, they presented some discrepancy and identified the presence of six and five subpopulations or groups, respectively. Principal coordinate analysis revealed more consistency with subgroups suggested by DAPC analysis. Our results clearly revealed the broad genetic base of TGx (Tropical <i>Glycine max</i>) lines that soybean breeders may select parents for crossing, testing and selection of future cultivars with desirable traits for SSA.
topic genetic diversity
population structure
KASP SNP markers
soybean
url https://www.mdpi.com/2073-4395/11/3/604
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