Winterhardiness in cereals is the consequence of a number of complex and interacting componentscold tolerance, vernalization requirement and photoperiod sensitivity. An understanding of the genetic basis of these component traits should allow for more effective selection. Genome map-based analyses hold considerable promise for dissecting complex phenotypes. A 74-point linkage map was developed from one hundred double haploid lines derived from a winter x spring barley cross and used as the basis for quantitative trait locus (QTL) analyses to determine the chromosome location of genes controlling components of winterhardiness. Despite the greater genome coverage provided by the current map, a previously-reported interval on chromosome 7 remains the only region where significant QTL effects for winter survival were detected in this population. QTLs for heading date under 24 h light map to the same region. A QTL for heading date under this photoperiod regime also maps to chromosome 2. A distinct set of QTLs mapping to chromosomes 1, 2, 3 and 5 determined heading date under 8 h light. Patterns of differential QTL expression underscore the complexity of Winterhardiness.

译文

谷物的耐寒性是许多复杂且相互作用的成分的耐受性,春化要求和光周期敏感性的结果。对这些组成性状的遗传基础的理解应该可以进行更有效的选择。基于基因组图谱的分析为解剖复杂的表型提供了可观的前景。从来自冬季x春季大麦杂交的100个双单倍体系开发了一个74点连锁图谱,并将其用作定量性状基因座 (QTL) 分析的基础,以确定控制耐寒性成分的基因的染色体位置。尽管当前地图提供了更大的基因组覆盖率,但先前报道的7号染色体间隔仍然是在该人群中检测到冬季生存的显着QTL影响的唯一区域。24 h光照图下到同一区域的航向日期的qtl。在这种光周期下,用于抽头日期的QTL也映射到2号染色体。映射到1、2、3和5号染色体的一组不同的qtl确定了在8小时光照下的标题日期。差异QTL表达的模式强调了耐寒性的复杂性。

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