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Quantitative genetic analysis of berry firmness in table grape (Vitis vinifera L.)
Authors
A Chakravarti
A Coupel-Ledru
+80 more
A Doligez
A Doligez
A Doligez
A Doligez
A Sato
A Sato
A Vargas
AF Adam-Blondon
AM Vargas
AR Tobler
C Maury
CD Nelson
Celia Martínez-Mora
D Glissant
D Grattapaglia
D Lijavetzky
D Lijavetzky
D Martínez-Romero
DA Brummel
DD Kosambi
DJ Cosgrove
DW Cain
E Duchêne
E Karaagac
EL Lehmann
ES Lander
F Schwander
H Letaief
H Yakushiji
Iván Carreño
J Battilana
J Carreño
J Correa
J Schlosser
JA Cabezas
JA Cabezas
JI Hormaza
José Antonio Cabezas
José Luis Cenis
José Miguel Martínez-Zapater
Juan Carreño
JW Ooijen Van
K Lange
K Nunan
KJ Nunan
KM Lowe
L Barnavon
L Costantini
L Rolle
L Rolle
Leonor Ruiz-García
LG Deluc
M Akkurt
M Cefola
M Grotte
M Ishimaru
M Ishimaru
M Moigne Le
MA Cliff
N Mejía
N Mejía
N Terrier
NC Carpita
NH Chapman
O Jaillon
P Barba
R Fouquet
R Velasco
RC Jansen
RE Voorrips
RH Don
Rosa Arroyo-García
S Gerber
S Guillaumie
S Longhi
S Pilati
S Riaz
S Riaz
SH Hulbert
YF Huang
Publication date
1 January 2015
Publisher
'Springer Science and Business Media LLC'
Doi
Cite
Abstract
Berry texture is a determinant quality trait in the breeding of new table grape varieties. We present the first mapping quantitative trait loci (QTL) results for berry firmness in table grape. Two segregating progenies, Muscat Hamburg × Sugraone (153 offspring) and Ruby Seedless × Moscatuel (78 offspring), were evaluated for this trait during two and four productive seasons, respectively. Firmness was scored at harvest as the force (newtons) required for a 20 % deformation of the berries. Parental and consensus genetic maps were built for each population. QTL analyses revealed a complex genetic control of firmness. Significant QTLs at genome-wide level were detected in seven genomic regions on linkage groups (LGs) 1, 4, 5, 9, 10, 13, and 18, individually explaining up to 19.8 % of the total phenotypic variance. The combined effect of all the QTLs detected in one season explained up to 44.5 % of the total phenotypic variance. Some annotated genes colocating with the LOD-1 support intervals of those QTLs are proposed as putative candidate genes that might be responsible for the QTLs that affect berry firmness. © 2014, Springer-Verlag Berlin Heidelberg
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info:doi/10.1007%2Fs11295-014-...
Last time updated on 03/12/2019