Diagnostic fingerprints ISSR/SSR for tropical leguminous species Stylosanthes capitata and Stylosanthes macrocephala

Diagnostic fingerprints ISSR/SSR for tropical leguminous species Stylosanthes capitata and Stylosanthes macrocephala

ABSTRACT: Stylosanthes capitata Vogel and Stylosanthes macrocephala M.B.Ferreira & Sousa Costa are two forage leguminous species of agronomic importance for animal husbandry in tropical environments. The physical mixture of both species (80 % S. capitata and 20 % S. macrocephala) comprises the c...

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Main Authors: Ana Lilia Alzate-Marin, Carolina Costa-Silva, Priscila Marlys Sá Rivas, Fernando Bonifacio-Anacleto, Leticia Gobett Santos, Rômulo Maciel de Moraes Filho, Carlos Alberto Martinez
Format: Article
Language:English
Published: Universidade de São Paulo
Series:Scientia Agricola
Subjects:
genetic purity
genetic diversity
seed production
Online Access:http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0103-90162020000301101&lng=en&tlng=en
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spelling doaj-ce756ee3d0e248498f7c1ef1503d867f2020-11-25T00:37:04ZengUniversidade de São PauloScientia Agricola1678-992X77310.1590/1678-992x-2018-0252S0103-90162020000301101Diagnostic fingerprints ISSR/SSR for tropical leguminous species Stylosanthes capitata and Stylosanthes macrocephalaAna Lilia Alzate-MarinCarolina Costa-SilvaPriscila Marlys Sá RivasFernando Bonifacio-AnacletoLeticia Gobett SantosRômulo Maciel de Moraes FilhoCarlos Alberto MartinezABSTRACT: Stylosanthes capitata Vogel and Stylosanthes macrocephala M.B.Ferreira & Sousa Costa are two forage leguminous species of agronomic importance for animal husbandry in tropical environments. The physical mixture of both species (80 % S. capitata and 20 % S. macrocephala) comprises the commercial cultivar “Estilosantes Campo Grande”. However, proximity of fields for seed production may contaminate seed lots, compromising seeds quality. The combined use of dominant and co-dominant molecular markers is an appropriate strategy to certificate genetic purity and perform diversity studies of cultivars. In this research, a set of ISSR (Inter-Simple Sequence Repeat polymorphic DNA) and SSR (Simple Sequence Repeat polymorphic DNA) molecular markers were standardized to characterize S. capitata and S. macrocephala species and evaluate the genetic purity of commercial samples. Four ISSR markers (UBC 2, 864, 885, 886) and SSR marker SC18-01 G4B showed precise species-specific electrophoretic fingerprints for both species. Electrophoretic patterns of ISSR molecular markers should be displayed first to confirm the sample identification. The structure analysis showed that the less contaminated sample was S. capitata with 97 % of its genetic composition assigned to a single genetic cluster vs. 95 % for S. macrocephala. S. capitata has greater genetic diversity (ISSRHe:0.292; SSRHe:0.57) than S. macrocephala (ISSRHe:0.285; SSRHe:0.16); however, this difference was only significant with SSR molecular markers. As these genetic resources have considerable ecological, agronomic and economic importance, tools for accurate species identification and genetic studies are essential for further seed multiplication, as well as for improvement and conservation of cultivars.http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0103-90162020000301101&lng=en&tlng=engenetic puritygenetic diversityseed production
collection DOAJ
language English
format Article
sources DOAJ
author Ana Lilia Alzate-Marin
Carolina Costa-Silva
Priscila Marlys Sá Rivas
Fernando Bonifacio-Anacleto
Leticia Gobett Santos
Rômulo Maciel de Moraes Filho
Carlos Alberto Martinez
spellingShingle Ana Lilia Alzate-Marin
Carolina Costa-Silva
Priscila Marlys Sá Rivas
Fernando Bonifacio-Anacleto
Leticia Gobett Santos
Rômulo Maciel de Moraes Filho
Carlos Alberto Martinez
Diagnostic fingerprints ISSR/SSR for tropical leguminous species Stylosanthes capitata and Stylosanthes macrocephala
Scientia Agricola
genetic purity
genetic diversity
seed production
author_facet Ana Lilia Alzate-Marin
Carolina Costa-Silva
Priscila Marlys Sá Rivas
Fernando Bonifacio-Anacleto
Leticia Gobett Santos
Rômulo Maciel de Moraes Filho
Carlos Alberto Martinez
author_sort Ana Lilia Alzate-Marin
title Diagnostic fingerprints ISSR/SSR for tropical leguminous species Stylosanthes capitata and Stylosanthes macrocephala
title_short Diagnostic fingerprints ISSR/SSR for tropical leguminous species Stylosanthes capitata and Stylosanthes macrocephala
title_full Diagnostic fingerprints ISSR/SSR for tropical leguminous species Stylosanthes capitata and Stylosanthes macrocephala
title_fullStr Diagnostic fingerprints ISSR/SSR for tropical leguminous species Stylosanthes capitata and Stylosanthes macrocephala
title_full_unstemmed Diagnostic fingerprints ISSR/SSR for tropical leguminous species Stylosanthes capitata and Stylosanthes macrocephala
title_sort diagnostic fingerprints issr/ssr for tropical leguminous species stylosanthes capitata and stylosanthes macrocephala
publisher Universidade de São Paulo
series Scientia Agricola
issn 1678-992X
description ABSTRACT: Stylosanthes capitata Vogel and Stylosanthes macrocephala M.B.Ferreira & Sousa Costa are two forage leguminous species of agronomic importance for animal husbandry in tropical environments. The physical mixture of both species (80 % S. capitata and 20 % S. macrocephala) comprises the commercial cultivar “Estilosantes Campo Grande”. However, proximity of fields for seed production may contaminate seed lots, compromising seeds quality. The combined use of dominant and co-dominant molecular markers is an appropriate strategy to certificate genetic purity and perform diversity studies of cultivars. In this research, a set of ISSR (Inter-Simple Sequence Repeat polymorphic DNA) and SSR (Simple Sequence Repeat polymorphic DNA) molecular markers were standardized to characterize S. capitata and S. macrocephala species and evaluate the genetic purity of commercial samples. Four ISSR markers (UBC 2, 864, 885, 886) and SSR marker SC18-01 G4B showed precise species-specific electrophoretic fingerprints for both species. Electrophoretic patterns of ISSR molecular markers should be displayed first to confirm the sample identification. The structure analysis showed that the less contaminated sample was S. capitata with 97 % of its genetic composition assigned to a single genetic cluster vs. 95 % for S. macrocephala. S. capitata has greater genetic diversity (ISSRHe:0.292; SSRHe:0.57) than S. macrocephala (ISSRHe:0.285; SSRHe:0.16); however, this difference was only significant with SSR molecular markers. As these genetic resources have considerable ecological, agronomic and economic importance, tools for accurate species identification and genetic studies are essential for further seed multiplication, as well as for improvement and conservation of cultivars.
topic genetic purity
genetic diversity
seed production
url http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0103-90162020000301101&lng=en&tlng=en
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