SNP genotyping elucidates the genetic diversity of Magna Graecia grapevine germplasm and its historical origin and dissemination

SNP genotyping elucidates the genetic diversity of Magna Graecia grapevine germplasm and its historical origin and dissemination

Abstract Background Magna Graecia is the ancient name for the modern geopolitical region of South Italy extensively populated by Greek colonizers, shown by archeological and historical evidence to be the oldest wine growing region of Italy, crucial for the spread of specialized viticulture around Me...

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Main Authors: Gabriella De Lorenzis, Francesco Mercati, Carlo Bergamini, Maria Francesca Cardone, Antonio Lupini, Antonio Mauceri, Angelo Raffaele Caputo, Loredana Abbate, Maria Gabriella Barbagallo, Donato Antonacci, Francesco Sunseri, Lucio Brancadoro
Format: Article
Language:English
Published: BMC 2019-01-01
Series:BMC Plant Biology
Subjects:
SNP
Molecular markers
Genetic diversity
Secondary center of domestication
Parentage
Online Access:http://link.springer.com/article/10.1186/s12870-018-1576-y
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spelling doaj-b2f8f11598714b33828a311a6a151eed2020-11-25T02:18:05ZengBMCBMC Plant Biology1471-22292019-01-0119111510.1186/s12870-018-1576-ySNP genotyping elucidates the genetic diversity of Magna Graecia grapevine germplasm and its historical origin and disseminationGabriella De Lorenzis0Francesco Mercati1Carlo Bergamini2Maria Francesca Cardone3Antonio Lupini4Antonio Mauceri5Angelo Raffaele Caputo6Loredana Abbate7Maria Gabriella Barbagallo8Donato Antonacci9Francesco Sunseri10Lucio Brancadoro11Dipartimento di Scienze Agrarie ed AmbientaliIstituto di Bioscienze e Biorisorse CNRConsiglio per la ricerca in agricoltura e l’analisi dell’economia agraria, Centro di ricerca Viticoltura ed Enologia, CREA-VEConsiglio per la ricerca in agricoltura e l’analisi dell’economia agraria, Centro di ricerca Viticoltura ed Enologia, CREA-VEDipartimento AGRARIA, località Feo di Vito sncDipartimento AGRARIA, località Feo di Vito sncConsiglio per la ricerca in agricoltura e l’analisi dell’economia agraria, Centro di ricerca Viticoltura ed Enologia, CREA-VEIstituto di Bioscienze e Biorisorse CNRDipartimento di Scienze Agrarie, Alimentari e ForestaliConsiglio per la ricerca in agricoltura e l’analisi dell’economia agraria, Centro di ricerca Viticoltura ed Enologia, CREA-VEDipartimento AGRARIA, località Feo di Vito sncDipartimento di Scienze Agrarie ed AmbientaliAbstract Background Magna Graecia is the ancient name for the modern geopolitical region of South Italy extensively populated by Greek colonizers, shown by archeological and historical evidence to be the oldest wine growing region of Italy, crucial for the spread of specialized viticulture around Mediterranean shores. Here, the genetic diversity of Magna Graecia grape germplasm was assessed and its role in grapevine propagation around the Mediterranean basin was underlined. Results A large collection of grapevines from Magna Graecia was compared with germplasm from Georgia to the Iberian Peninsula using the 18 K SNP array. A high level of genetic diversity of the analyzed germplasm was determined; clustering, structure analysis and DAPC (Discriminant Analysis of Principal Components) highlighted the genetic relationships among genotypes from South Italy and the Eastern Mediterranean (Greece). Gene flow from east (Georgia) to west (Iberian Peninsula) was identified throughout the large number of detected admixed samples. Pedigree analysis showed a complex and well-structured network of first degree relationships, where the cultivars from Magna Graecia were mainly involved. Conclusions This study provided evidence that Magna Graecia germplasm was shaped by historical events that occurred in the area due to the robust link between South Italian and Greek genotypes, as well as, by the availability of different thermal resources for cultivars growing in such different winegrowing areas. The uniqueness of this ampelographic platform was mainly an outcome of complex natural or human-driven crosses involving elite cultivars.http://link.springer.com/article/10.1186/s12870-018-1576-ySNPMolecular markersGenetic diversitySecondary center of domesticationParentage
collection DOAJ
language English
format Article
sources DOAJ
author Gabriella De Lorenzis
Francesco Mercati
Carlo Bergamini
Maria Francesca Cardone
Antonio Lupini
Antonio Mauceri
Angelo Raffaele Caputo
Loredana Abbate
Maria Gabriella Barbagallo
Donato Antonacci
Francesco Sunseri
Lucio Brancadoro
spellingShingle Gabriella De Lorenzis
Francesco Mercati
Carlo Bergamini
Maria Francesca Cardone
Antonio Lupini
Antonio Mauceri
Angelo Raffaele Caputo
Loredana Abbate
Maria Gabriella Barbagallo
Donato Antonacci
Francesco Sunseri
Lucio Brancadoro
SNP genotyping elucidates the genetic diversity of Magna Graecia grapevine germplasm and its historical origin and dissemination
BMC Plant Biology
SNP
Molecular markers
Genetic diversity
Secondary center of domestication
Parentage
author_facet Gabriella De Lorenzis
Francesco Mercati
Carlo Bergamini
Maria Francesca Cardone
Antonio Lupini
Antonio Mauceri
Angelo Raffaele Caputo
Loredana Abbate
Maria Gabriella Barbagallo
Donato Antonacci
Francesco Sunseri
Lucio Brancadoro
author_sort Gabriella De Lorenzis
title SNP genotyping elucidates the genetic diversity of Magna Graecia grapevine germplasm and its historical origin and dissemination
title_short SNP genotyping elucidates the genetic diversity of Magna Graecia grapevine germplasm and its historical origin and dissemination
title_full SNP genotyping elucidates the genetic diversity of Magna Graecia grapevine germplasm and its historical origin and dissemination
title_fullStr SNP genotyping elucidates the genetic diversity of Magna Graecia grapevine germplasm and its historical origin and dissemination
title_full_unstemmed SNP genotyping elucidates the genetic diversity of Magna Graecia grapevine germplasm and its historical origin and dissemination
title_sort snp genotyping elucidates the genetic diversity of magna graecia grapevine germplasm and its historical origin and dissemination
publisher BMC
series BMC Plant Biology
issn 1471-2229
publishDate 2019-01-01
description Abstract Background Magna Graecia is the ancient name for the modern geopolitical region of South Italy extensively populated by Greek colonizers, shown by archeological and historical evidence to be the oldest wine growing region of Italy, crucial for the spread of specialized viticulture around Mediterranean shores. Here, the genetic diversity of Magna Graecia grape germplasm was assessed and its role in grapevine propagation around the Mediterranean basin was underlined. Results A large collection of grapevines from Magna Graecia was compared with germplasm from Georgia to the Iberian Peninsula using the 18 K SNP array. A high level of genetic diversity of the analyzed germplasm was determined; clustering, structure analysis and DAPC (Discriminant Analysis of Principal Components) highlighted the genetic relationships among genotypes from South Italy and the Eastern Mediterranean (Greece). Gene flow from east (Georgia) to west (Iberian Peninsula) was identified throughout the large number of detected admixed samples. Pedigree analysis showed a complex and well-structured network of first degree relationships, where the cultivars from Magna Graecia were mainly involved. Conclusions This study provided evidence that Magna Graecia germplasm was shaped by historical events that occurred in the area due to the robust link between South Italian and Greek genotypes, as well as, by the availability of different thermal resources for cultivars growing in such different winegrowing areas. The uniqueness of this ampelographic platform was mainly an outcome of complex natural or human-driven crosses involving elite cultivars.
topic SNP
Molecular markers
Genetic diversity
Secondary center of domestication
Parentage
url http://link.springer.com/article/10.1186/s12870-018-1576-y
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