Add to ORKGAbiotic stress tolerance in plants is pivotal to increase yield stability, but its genetic basis is still poorly understood. To gain insight into the genetic architecture of frost tolerance, this work evaluated a large mapping population of 1739 wheat (Triticum aestivum L.) lines and hybrids adapted to Central Europe in field trials in Germany and fingerprinted the lines with a 9000 single-nucleotide polymorphism array. Additive effects prevailed over dominance effects. A two-dimensional genome scan revealed the presence of epistatic effects. Genome-wide association mapping in combination with a robust cross-validation strategy identified one frost tolerance locus with a major effect located on chromosome 5B. This locus was not in linkage d...
A cluster of eleven CBF genes was recently mapped to the Frost resistance-2 (Fr-Am2) locus on chromo...
Abstract Wheat chromosome 5A plays a key role in cold acclimation and frost tolerance. Themajor fros...
Although cold acclimation in cereals involves the expression of many cold-regulated genes, genetic s...
Abiotic stress tolerance in plants is pivotal to increase yield stability, but its genetic basis is ...
Plants grown through the winter are subject to selective pressures that vary with each year’s unique...
Species of the Triticeae tribe of the Poaceae, such as wheat and barley, able to acclimate to and to...
Triticum aestivum (wheat) plays a large role in human nutrition and is grown around the world. In ma...
Background: Frost tolerance is a key trait with economic and agronomic importance in barley because ...
© 2017, Springer-Verlag GmbH Germany. Key message: Rye genetic resources provide a valuable source o...
Wheat (Triticumaestivum L.) is a major cereal crop grown across a wide range of environments, but it...
The aim of the research reported in this thesis was to identify genetic variation for Reproductive F...
Winter conditions necessitate tolerance of snow mold and freezing cold among winter wheat plants. Th...
Frost tolerance is the main component of winter hardiness for cereals and is largely dependent on th...
Key message The interaction betweenVRN-A1andFR-A2largely affect the frost tolerance of hexaploid whe...
A cluster of eleven CBF genes was recently mapped to the Frost resistance-2 (Fr-Am2) locus on chromo...
Abstract Wheat chromosome 5A plays a key role in cold acclimation and frost tolerance. Themajor fros...
Although cold acclimation in cereals involves the expression of many cold-regulated genes, genetic s...
Abiotic stress tolerance in plants is pivotal to increase yield stability, but its genetic basis is ...
Plants grown through the winter are subject to selective pressures that vary with each year’s unique...
Species of the Triticeae tribe of the Poaceae, such as wheat and barley, able to acclimate to and to...
Triticum aestivum (wheat) plays a large role in human nutrition and is grown around the world. In ma...
Background: Frost tolerance is a key trait with economic and agronomic importance in barley because ...
© 2017, Springer-Verlag GmbH Germany. Key message: Rye genetic resources provide a valuable source o...
Wheat (Triticumaestivum L.) is a major cereal crop grown across a wide range of environments, but it...
The aim of the research reported in this thesis was to identify genetic variation for Reproductive F...
Winter conditions necessitate tolerance of snow mold and freezing cold among winter wheat plants. Th...
Frost tolerance is the main component of winter hardiness for cereals and is largely dependent on th...
Key message The interaction betweenVRN-A1andFR-A2largely affect the frost tolerance of hexaploid whe...
A cluster of eleven CBF genes was recently mapped to the Frost resistance-2 (Fr-Am2) locus on chromo...
Abstract Wheat chromosome 5A plays a key role in cold acclimation and frost tolerance. Themajor fros...
Although cold acclimation in cereals involves the expression of many cold-regulated genes, genetic s...