Molecular genetic diversity and population structure of Ethiopian white lupin landraces: implications for breeding and conservation

Molecular genetic diversity and population structure of Ethiopian white lupin landraces: implications for breeding and conservation

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White lupin is one of the four economically important species of the Lupinus genus and is an important grain legume in the Ethiopian farming system. However, there has been limited research effort to characterize the Ethiopian white lupin landraces. Fifteen polymorphic simple sequence repeat (SSR) markers were used to assess the genetic diversity and population structure of 212 Ethiopian white lupin (Lupinus albus) landraces and two genotypes from different species (Lupinus angustifolius and Lupinus mutabilis) were used as out-group. The SSR markers revealed 108 different alleles, 98 of them from 212 landraces and 10 from out-group genotypes, with an average of 6.5 alleles per locus. The average gene diversity was 0.31. Twenty eight landraces harbored one or more private alleles from the total of 28 private alleles identified in the 212 white lupin accessions. Seventy-seven rare alleles with a frequency of less than 5% were identified and accounted for 78.6% of the total alleles detected. Analysis of molecular variance (AMOVA) showed that 92% of allelic diversity was attributed to individual accessions within populations while only 8% was distributed among populations. At 70% similarity level, the UPGMA dendrogram resulted in the formation of 13 clusters comprised of 2 to 136 landraces, with the out-group genotypes and five landraces remaining distinct and ungrouped. Population differentiation and genetic distance were relatively high between Gondar and Ethiopian white lupin populations collected by Australians. A model-based population structure analysis divided the white lupin landraces into two populations. All Ethiopian white lupin landrace populations, except most of the landraces collected by Australians (77%) and about 44% from Awi, were grouped together with significant admixtures. The study also suggested that 34 accessions, as core collections, were sufficient to retain 100% of SSR diversity. These accessions (core G-34) represent 16% of the whole 212 Ethiopian white lupin accessions and populations from West Gojam, Awi and Australian collections contributed more accessions to the core collection.

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Main Authors: Atnaf, M., Yao, N., Kyalo, M., Kifle, D., Dagne Wegary Gissa, Kassahun, T.
Format: Article biblioteca
Language:English
Published: Public Library of Science 2017
Subjects:AGRICULTURAL SCIENCES AND BIOTECHNOLOGY, LUPINUS ALBUS, MOLECULAR GENETICS, PLANT BREEDING, GERMPLASM CONSERVATION,
Online Access:http://hdl.handle.net/10883/19181
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spelling dig-cimmyt-10883-191812021-02-09T18:24:45Z Molecular genetic diversity and population structure of Ethiopian white lupin landraces: implications for breeding and conservation Atnaf, M. Yao, N. Kyalo, M. Kifle, D. Dagne Wegary Gissa Kassahun, T. AGRICULTURAL SCIENCES AND BIOTECHNOLOGY LUPINUS ALBUS MOLECULAR GENETICS PLANT BREEDING GERMPLASM CONSERVATION White lupin is one of the four economically important species of the Lupinus genus and is an important grain legume in the Ethiopian farming system. However, there has been limited research effort to characterize the Ethiopian white lupin landraces. Fifteen polymorphic simple sequence repeat (SSR) markers were used to assess the genetic diversity and population structure of 212 Ethiopian white lupin (Lupinus albus) landraces and two genotypes from different species (Lupinus angustifolius and Lupinus mutabilis) were used as out-group. The SSR markers revealed 108 different alleles, 98 of them from 212 landraces and 10 from out-group genotypes, with an average of 6.5 alleles per locus. The average gene diversity was 0.31. Twenty eight landraces harbored one or more private alleles from the total of 28 private alleles identified in the 212 white lupin accessions. Seventy-seven rare alleles with a frequency of less than 5% were identified and accounted for 78.6% of the total alleles detected. Analysis of molecular variance (AMOVA) showed that 92% of allelic diversity was attributed to individual accessions within populations while only 8% was distributed among populations. At 70% similarity level, the UPGMA dendrogram resulted in the formation of 13 clusters comprised of 2 to 136 landraces, with the out-group genotypes and five landraces remaining distinct and ungrouped. Population differentiation and genetic distance were relatively high between Gondar and Ethiopian white lupin populations collected by Australians. A model-based population structure analysis divided the white lupin landraces into two populations. All Ethiopian white lupin landrace populations, except most of the landraces collected by Australians (77%) and about 44% from Awi, were grouped together with significant admixtures. The study also suggested that 34 accessions, as core collections, were sufficient to retain 100% of SSR diversity. These accessions (core G-34) represent 16% of the whole 212 Ethiopian white lupin accessions and populations from West Gojam, Awi and Australian collections contributed more accessions to the core collection. 2018-01-24T17:26:22Z 2018-01-24T17:26:22Z 2017 Article http://hdl.handle.net/10883/19181 10.1371/journal.pone.0188696 English https://ndownloader.figshare.com/articles/5653651/versions/1 CIMMYT manages Intellectual Assets as International Public Goods. The user is free to download, print, store and share this work. In case you want to translate or create any other derivative work and share or distribute such translation/derivative work, please contact CIMMYT-Knowledge-Center@cgiar.org indicating the work you want to use and the kind of use you intend; CIMMYT will contact you with the suitable license for that purpose. Open Access PDF ETHIOPIA Ethiopia San Francisco, USA Public Library of Science 11 12 PLoS ONE
institution CIMMYT
collection DSpace
country México
countrycode MX
component Bibliográfico
access En linea
databasecode dig-cimmyt
tag biblioteca
region America del Norte
libraryname CIMMYT Library
language English
topic AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
LUPINUS ALBUS
MOLECULAR GENETICS
PLANT BREEDING
GERMPLASM CONSERVATION
AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
LUPINUS ALBUS
MOLECULAR GENETICS
PLANT BREEDING
GERMPLASM CONSERVATION
spellingShingle AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
LUPINUS ALBUS
MOLECULAR GENETICS
PLANT BREEDING
GERMPLASM CONSERVATION
AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
LUPINUS ALBUS
MOLECULAR GENETICS
PLANT BREEDING
GERMPLASM CONSERVATION
Atnaf, M.
Yao, N.
Kyalo, M.
Kifle, D.
Dagne Wegary Gissa
Kassahun, T.
Molecular genetic diversity and population structure of Ethiopian white lupin landraces: implications for breeding and conservation
description White lupin is one of the four economically important species of the Lupinus genus and is an important grain legume in the Ethiopian farming system. However, there has been limited research effort to characterize the Ethiopian white lupin landraces. Fifteen polymorphic simple sequence repeat (SSR) markers were used to assess the genetic diversity and population structure of 212 Ethiopian white lupin (Lupinus albus) landraces and two genotypes from different species (Lupinus angustifolius and Lupinus mutabilis) were used as out-group. The SSR markers revealed 108 different alleles, 98 of them from 212 landraces and 10 from out-group genotypes, with an average of 6.5 alleles per locus. The average gene diversity was 0.31. Twenty eight landraces harbored one or more private alleles from the total of 28 private alleles identified in the 212 white lupin accessions. Seventy-seven rare alleles with a frequency of less than 5% were identified and accounted for 78.6% of the total alleles detected. Analysis of molecular variance (AMOVA) showed that 92% of allelic diversity was attributed to individual accessions within populations while only 8% was distributed among populations. At 70% similarity level, the UPGMA dendrogram resulted in the formation of 13 clusters comprised of 2 to 136 landraces, with the out-group genotypes and five landraces remaining distinct and ungrouped. Population differentiation and genetic distance were relatively high between Gondar and Ethiopian white lupin populations collected by Australians. A model-based population structure analysis divided the white lupin landraces into two populations. All Ethiopian white lupin landrace populations, except most of the landraces collected by Australians (77%) and about 44% from Awi, were grouped together with significant admixtures. The study also suggested that 34 accessions, as core collections, were sufficient to retain 100% of SSR diversity. These accessions (core G-34) represent 16% of the whole 212 Ethiopian white lupin accessions and populations from West Gojam, Awi and Australian collections contributed more accessions to the core collection.
format Article
topic_facet AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
LUPINUS ALBUS
MOLECULAR GENETICS
PLANT BREEDING
GERMPLASM CONSERVATION
author Atnaf, M.
Yao, N.
Kyalo, M.
Kifle, D.
Dagne Wegary Gissa
Kassahun, T.
author_facet Atnaf, M.
Yao, N.
Kyalo, M.
Kifle, D.
Dagne Wegary Gissa
Kassahun, T.
author_sort Atnaf, M.
title Molecular genetic diversity and population structure of Ethiopian white lupin landraces: implications for breeding and conservation
title_short Molecular genetic diversity and population structure of Ethiopian white lupin landraces: implications for breeding and conservation
title_full Molecular genetic diversity and population structure of Ethiopian white lupin landraces: implications for breeding and conservation
title_fullStr Molecular genetic diversity and population structure of Ethiopian white lupin landraces: implications for breeding and conservation
title_full_unstemmed Molecular genetic diversity and population structure of Ethiopian white lupin landraces: implications for breeding and conservation
title_sort molecular genetic diversity and population structure of ethiopian white lupin landraces: implications for breeding and conservation
publisher Public Library of Science
publishDate 2017
url http://hdl.handle.net/10883/19181
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