Author:
McCoy Jack,Martínez-Ainsworth Natalia,Bernau Vivian,Scheppler Hannah,Hedblom Grant,Adhikari Achuyt,McCormick Anna,Kantar Michael,McHale Leah,Jardón-Barbolla Lev,Mercer Kristin L.,Baumler David
Abstract
Abstract
Background
Peppers, bell and chile, are a culturally and economically important worldwide. Domesticated Capsicum spp. are distributed globally and represent a complex of valuable genetic resources.
Objectives
Explore population structure and diversity in a collection of 467 peppers representing eight species, spanning the spectrum from highly domesticated to wild using 22,916 SNP markers distributed across the twelve chromosomes of pepper.
Results
These species contained varied levels of genetic diversity, which also varied across chromosomes; the species also differ in the size of genetic bottlenecks they have experienced. We found that levels of diversity negatively correlate to levels of domestication, with the more diverse being the least domesticated.
Funder
USDA-AFRI, Physiology of Agricultural Plants section, “Genetic structure and mechanisms of drought adaptation in Capsicum”.
CONACyT, Modalidad 1
Publisher
Springer Science and Business Media LLC
Subject
General Biochemistry, Genetics and Molecular Biology,General Medicine