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Multi-environment association study highlights candidate genes for robust agronomic quantitative trait loci in a novel worldwide Capsicum core collection
Year:
2023
Source of publication :
The plant journal
Authors :
Borovsky, Yelena
;
.
Paran, Ilan
;
.
Volume :
Co-Authors:

Louis McLeod 
Lorenzo Barchi
Giorgio Tumino
Pasquale Tripodi
Jérémy Salinier
Christophe Gros
Hatice Filiz Boyaci
Ramazan Ozalp 
Yelena Borovsky
Roland Schafleitner 
Derek Barchenger 
Richard Finkers
Matthijs Brouwer 
Nils Stein
Mark Timothy Rabanus-Wallace
Giovanni Giuliano 
Roeland Voorrips
Ilan Paran
Véronique Lefebvre 

Facilitators :
From page:
0
To page:
0
(
Total pages:
1
)
Abstract:

Investigating crop diversity through genome-wide association studies (GWAS) on core collections helps in deciphering the genetic determinants of complex quantitative traits. Using the G2P-SOL project world collection of 10 038 wild and cultivated Capsicum accessions from 10 major genebanks, we assembled a core collection of 423 accessions representing the known genetic diversity. Since complex traits are often highly dependent upon environmental variables and genotype-by-environment (G × E) interactions, multi-environment GWAS with a 10 195-marker genotypic matrix were conducted on a highly diverse subset of 350 Capsicum annuum accessions, extensively phenotyped in up to six independent trials from five climatically differing countries. Environment-specific and multi-environment quantitative trait loci (QTLs) were detected for 23 diverse agronomic traits. We identified 97 candidate genes potentially implicated in 53 of the most robust and high-confidence QTLs for fruit flavor, color, size, and shape traits, and for plant productivity, vigor, and earliness traits. Investigating the genetic architecture of agronomic traits in this way will assist the development of genetic markers and pave the way for marker-assisted selection. The G2P-SOL pepper core collection will be available upon request as a unique and universal resource for further exploitation in future gene discovery and marker-assisted breeding efforts by the pepper community.

Note:
Related Files :
agronomic trait
association study
Candidate genes
Capsicum annuum L.
Core collection
multi-environment trials
Pepper
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Related Content
More details
DOI :
10.1111/tpj.16425
Article number:
0
Affiliations:
Database:
PubMed
Publication Type:
article
;
.
Language:
English
Editors' remarks:
ID:
66052
Last updated date:
22/10/2023 20:21
Creation date:
22/10/2023 20:21
Scientific Publication
Multi-environment association study highlights candidate genes for robust agronomic quantitative trait loci in a novel worldwide Capsicum core collection

Louis McLeod 
Lorenzo Barchi
Giorgio Tumino
Pasquale Tripodi
Jérémy Salinier
Christophe Gros
Hatice Filiz Boyaci
Ramazan Ozalp 
Yelena Borovsky
Roland Schafleitner 
Derek Barchenger 
Richard Finkers
Matthijs Brouwer 
Nils Stein
Mark Timothy Rabanus-Wallace
Giovanni Giuliano 
Roeland Voorrips
Ilan Paran
Véronique Lefebvre 

Multi-environment association study highlights candidate genes for robust agronomic quantitative trait loci in a novel worldwide Capsicum core collection

Investigating crop diversity through genome-wide association studies (GWAS) on core collections helps in deciphering the genetic determinants of complex quantitative traits. Using the G2P-SOL project world collection of 10 038 wild and cultivated Capsicum accessions from 10 major genebanks, we assembled a core collection of 423 accessions representing the known genetic diversity. Since complex traits are often highly dependent upon environmental variables and genotype-by-environment (G × E) interactions, multi-environment GWAS with a 10 195-marker genotypic matrix were conducted on a highly diverse subset of 350 Capsicum annuum accessions, extensively phenotyped in up to six independent trials from five climatically differing countries. Environment-specific and multi-environment quantitative trait loci (QTLs) were detected for 23 diverse agronomic traits. We identified 97 candidate genes potentially implicated in 53 of the most robust and high-confidence QTLs for fruit flavor, color, size, and shape traits, and for plant productivity, vigor, and earliness traits. Investigating the genetic architecture of agronomic traits in this way will assist the development of genetic markers and pave the way for marker-assisted selection. The G2P-SOL pepper core collection will be available upon request as a unique and universal resource for further exploitation in future gene discovery and marker-assisted breeding efforts by the pepper community.

Scientific Publication
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