A high-density genetic map of hexaploid wheat (Triticum aestivum L.) from the cross Chinese Spring × SQ1 and its use to compare QTLs for grain yield across a range of environments

@article{Quarrie2004AHG,
  title={A high-density genetic map of hexaploid wheat (Triticum aestivum L.) from the cross Chinese Spring × SQ1 and its use to compare QTLs for grain yield across a range of environments},
  author={Stephen Alexander Quarrie and Andrew Steed and Cristina Calestani and Andrei G. Semikhodskii and Claude Lebreton and Catherine Chinoy and N. Steele and Dejan Pljevljaku{\vs}i{\'c} and E. Waterman and Jens Weyen and J{\"o}rg Schondelmaier and Dimah Z. Habash and P. Farmer and Leslie R. Saker and David T. Clarkson and Aigul Abugalieva and Minura Yessimbekova and Yerlan Turuspekov and Saule Abugalieva and Roberto Tuberosa and Maria Corinna Sanguineti and Phill A. Hollington and Ramon Aragues and Alberto Mart{\'i}nez Royo and Dejan Dodig},
  journal={Theoretical and Applied Genetics},
  year={2004},
  volume={110},
  pages={865-880}
}
A population of 96 doubled haploid lines (DHLs) was prepared from F1 plants of the hexaploid wheat cross Chinese Spring × SQ1 (a high abscisic acid-expressing breeding line) and was mapped with 567 RFLP, AFLP, SSR, morphological and biochemical markers covering all 21 chromosomes, with a total map length of 3,522 cM. Although the map lengths for each genome were very similar, the D  genome had only half the markers of the other two genomes. The map was used to identify quantitative trait loci… 
Molecular mapping of quantitative trait loci for yield and yield components in spring wheat (Triticum aestivum L.)
TLDR
This study identified potential chromosome segments for use in marker-assisted selection to improve yield and yield components in spring wheat by analyzing F1 derived doubled haploid population from the adapted spring wheat cross Superb.
Whole genome mapping in a wheat doubled haploid population using SSRs and TRAPs and the identification of QTL for agronomic traits
TLDR
A doubled haploid population derived from the synthetic hexaploid wheat line TA4152-60 and the North Dakota hard red spring wheat line ND495 will be a useful tool for the identification of disease resistance QTL and agronomically important loci, and will aid in the identification and development of markers for MAS.
Mapping QTLs associated with salt tolerance related traits in wheat (Triticum aestivum L.)
TLDR
A population of 254 recombinant inbred lines, derived from a cross between two bread wheat cultivars, was assessed in glasshouse during the seedling phase in order to identify quantitative trait loci (QTLs) for salinity-tolerance related traits.
Identification of QTLs for Yield-Related Traits in the ecombinant Inbred Line Population Derived from the Cross Between a Synthetic Hexaploid Wheat-Derived Variety Chuanmai 42 and a Chinese Elite Variety Chuannong 16
TLDR
Synthetic hexaploid wheat represents a valuable source of new resistances to a range of biotic and abiotic stresses and a recombinant inbred line (RIL) population derived from a SHW-derived variety Chuanmai 42 crossing with a Chinese spring wheat variety Chuannong 16 was used to map QTLs for agronomic traits.
QTL MAPPING OF WHEAT (TRITICUM AESTIVUM L.) IN RESPONSE TO SALT STRESS
Molecular markers provide a rapid approach to breeding for desired traits. To use them, it is necessary to determine the linkage between quantitative trait loci (QTL) and such markers. This study was
Mapping QTLs Associated with Salt Tolerance Related Traits in Seedling Stage of Wheat ( Triticum aestivum L.)
TLDR
A population of 254 recombinant inbred lines, derived from a cross between two bread wheat cultivars, was assessed in glasshouse during the seedling phase in order to identify quantitative trait loci (QTLs) for salinity-tolerance related traits.
Identification and validation of a major chromosome region for high grain number per spike under meiotic stage water stress in wheat (Triticum aestivum L.)
TLDR
An International Triticeae Mapping Initiative (ITMI) mapping population developed from a cross between a Synthetic hexaploid wheat and a spring wheat variety was used to identify quantitative trait loci associated with grain number per spike under two treatment conditions, normal watering and water stress during meiosis.
Genomic regions for yield and yield parameters in Chinese winter wheat (Triticum aestivum L.) genotypes tested under varying environments correspond to QTL in widely different wheat materials
TLDR
Field trials with a population of 108 doubled haploid lines of bread wheat derived from a cross between the Chinese winter wheat cultivars CA9613 and H1488 and an analysis of quantitative trait loci (QTL) carried out for yield and yield parameters using the composite interval mapping (CIM) approach found five QTL located on chromosomes 1A, 1B, 2B, 3D and 7D exhibited pleiotropic effects.
Identification of novel tan spot resistance QTLs using an SSR-based linkage map of tetraploid wheat
TLDR
The tetraploid wheat doubled haploid population and genetic maps reported here will be useful for genetic dissection of important agronomic traits as well as the identification and development of markers for marker-assisted selection (MAS).
QTL Mapping of Yield and Yield Components under Normal and Salt-stress Conditions in Bread Wheat (Triticum aestivum L.)
TLDR
A population of 186 recombinant inbred lines of bread wheat was evaluated to identify quantitative trait loci (QTL) for yield and yield components under normal and salt-stress conditions, finding SSR markers gwm282, gwm247, gWM566, and gwm33 were tightly linked to QTL and accounted for about 17 %, 43 % and 20 % of the total phenotypic variation.
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