High-density mapping suggests cytoplasmic male sterility with two restorer genes in almond × peach progenies

Publication Overview
TitleHigh-density mapping suggests cytoplasmic male sterility with two restorer genes in almond × peach progenies
AuthorsDonoso JM, Eduardo I, Picañol R, Batlle I, Howad W, Aranzana MJ, Arús P.
TypeJournal Article
Journal NameHorticulture Research
Volume2
Year2015
CitationDonoso JM, Eduardo I, Picañol R, Batlle I, Howad W, Aranzana MJ, Arús P. High-density mapping suggests cytoplasmic male sterility with two restorer genes in almond × peach progenies. Horticulture Research 2015 2: 15016

Abstract

Peach (Prunus persica) and almond (Prunus dulcis) are two sexually compatible species that produce fertile offspring. Almond, a highly polymorphic species, is a potential source of new genes for peach that has a strongly eroded gene pool. Here we describe the genetics of a male sterile phenotype that segregated in two almond (‘Texas’) × peach (‘Earlygold’) progenies: an F2 (T×E) and a backcross one (T1E) to the ‘Earlygold’ parent. High-density maps were developed using a 9k peach SNP chip and 135 simple-sequence repeats. Three highly syntenic and collinear maps were obtained: one for the F2 (T×E) and two for the backcross, T1E (for the hybrid) and E (for ‘Earlygold’). A major reduction of recombination was observed in the interspecific maps (T×E and T1E) compared to the intraspecific parent (E). The E map also had extensive monomorphic genomic regions suggesting the presence of large DNA fragments identical by descent. Our data for the male sterility character were consistent with the existence of cytoplasmic male sterility, where individuals having the almond cytoplasm required the almond allele in at least one of two independent restorer genes, Rf1 and Rf2, to be fertile. The restorer genes were located in a 3.4 Mbp fragment of linkage group 2 (Rf1) and 1.4 Mbp of linkage group 6 (Rf2). Both fragments contained several genes coding for pentatricopeptide proteins, demonstrated to be responsible for restoring fertility in other species. The implications of these results for using almond as a source of novel variability in peach are discussed.
Features
This publication contains information about 480 features:
Feature NameUniquenameType
SNP_IGA_240333SNP_IGA_240333genetic_marker
SNP_IGA_24260SNP_IGA_24260genetic_marker
SNP_IGA_24703SNP_IGA_24703genetic_marker
SNP_IGA_249849SNP_IGA_249849genetic_marker
SNP_IGA_25530SNP_IGA_25530genetic_marker
SNP_IGA_257549SNP_IGA_257549genetic_marker
SNP_IGA_259864SNP_IGA_259864genetic_marker
SNP_IGA_26053SNP_IGA_26053genetic_marker
SNP_IGA_263098SNP_IGA_263098genetic_marker
SNP_IGA_264220SNP_IGA_264220genetic_marker
SNP_IGA_265240SNP_IGA_265240genetic_marker
SNP_IGA_266317SNP_IGA_266317genetic_marker
SNP_IGA_269074SNP_IGA_269074genetic_marker
SNP_IGA_269660SNP_IGA_269660genetic_marker
SNP_IGA_273175SNP_IGA_273175genetic_marker
SNP_IGA_274133SNP_IGA_274133genetic_marker
SNP_IGA_274867SNP_IGA_274867genetic_marker
SNP_IGA_275057SNP_IGA_275057genetic_marker
SNP_IGA_275481SNP_IGA_275481genetic_marker
SNP_IGA_276571SNP_IGA_276571genetic_marker
SNP_IGA_277273SNP_IGA_277273genetic_marker
SNP_IGA_277934SNP_IGA_277934genetic_marker
SNP_IGA_278061SNP_IGA_278061genetic_marker
SNP_IGA_278849SNP_IGA_278849genetic_marker
SNP_IGA_281582SNP_IGA_281582genetic_marker

Pages

Featuremaps
This publication contains information about 3 maps:
Map Name
Prunus-TE-F2-2015
Prunus-TE-BC1-T1E
Prunus-TE-BC1-E