Two loci on chromosome 5H determine low-temperature tolerance in a ‘Nure’ (winter) × ‘Tremois’ (spring) barley map

• Published in: Theoretical and applied genetics Vol. 108; no. 4; pp. 670 - 680
• Main Authors: Francia, E., Rizza, F., Cattivelli, L., Stanca, A. M., Galiba, G., Tóth, B., Hayes, P. M., Skinner, J. S., Pecchioni, N.
• Format: Journal Article
• Language: English
• Published: Heidelberg Springer Nature B.V 01.02.2004
• Subjects: Genetics; Genotype & phenotype
• ISSN: 0040-5752; 1432-2242
• DOI: 10.1007/s00122-003-1468-9

Barley (Hordeum vulgare subsp. vulgare) is an economically important diploid model for the Triticeae; and a better understanding of low-temperature tolerance mechanisms could significantly improve the yield of fall-sown cereals. We developed a new resource for genetic analysis of winter hardiness-related traits, the 'Nure' × 'Tremois' linkage map, based on a doubled-haploid population that is segregating for low-temperature tolerance and vernalization requirement. Three measures of low-temperature tolerance and one measure of vernalization requirement were used and, for all traits, QTLs were mapped on chromosome 5H. The vernalization response QTL coincides with previous reports at the Vrn-1/Fr1 region of the Triticeae. We also found coincident QTLs at this position for all measures of low-temperature tolerance. Using Composite Interval Mapping, a second proximal set, of coincident QTLs for low-temperature tolerance, and the accumulation of two different COR proteins (COR14b and TMC-Ap3) was identified. The HvCBF4 locus, or another member of the CBF loci clustered in this region, is the candidate gene underlying this QTL. There is a CRT/DRE recognition site in the promoter of cor14b with which a CBF protein could interact. These results support the hypothesis that highly conserved regulatory factors, such as members of the CBF gene family, may regulate the stress responses of a wide range of plant species.[PUBLICATION ABSTRACT]