Stockinger Eric J, Skinner Jeffrey S, Gardner Kip G, Francia Enrico, Pecchioni Nicola
Department of Horticulture and Crop Science, Ohio State University/OARDC, Wooster, OH 44691, USA.
Plant J. 2007 Jul;51(2):308-21. doi: 10.1111/j.1365-313X.2007.0141.x. Epub 2007 Jun 8.
Genetic analyses have identified two loci in wheat and barley that mediate the capacity to overwinter in temperate climates. One locus co-segregates with VRN-1, which affects the vernalization requirement. This locus is known as Frost resistance-1 (Fr-1). The second locus, Fr-2, is coincident with a cluster of more than 12 Cbf genes. Cbf homologs in Arabidopsis thaliana play a key regulatory role in cold acclimatization and the acquisition of freezing tolerance. Here we report that the Hordeum vulgare (barley) locus VRN-H1/Fr-H1 affects expression of multiple barley Cbf genes at Fr-H2. RNA blot analyses, conducted on a 'Nure'x'Tremois' barley mapping population segregating for VRN-H1/Fr-H1 and Fr-H2, revealed that transcript levels of all cold-induced Cbf genes at Fr-H2 were significantly higher in recombinants harboring the vrn-H1 winter allele than in recombinants harboring the Vrn-H1 spring allele. Steady-state Cbf2 and Cbf4 levels were also significantly higher in recombinants harboring the Nure allele at Fr-H2. Additional experiments indicated that, in vrn-H1 genotypes requiring vernalization, Cbf expression levels were dampened after plants were vernalized, and dampened Cbf expression was accompanied by robust expression of Vrn-1. Cbf levels were also significantly higher in plants grown under short days than under long days. Experiments in wheat and rye indicated that similar regulatory mechanisms occurred in these plants. These results suggest that VRN-H1/Fr-H1 acts in part to repress or attenuate expression of the Cbf at Fr-H2; and that the greater level of low temperature tolerance attributable to the Nure Fr-H2 allele may be due to the greater accumulation of Cbf2 and Cbf4 transcripts during normal growth and development.
遗传分析已在小麦和大麦中鉴定出两个位点,它们介导了在温带气候下越冬的能力。一个位点与VRN-1共分离,VRN-1影响春化需求。这个位点被称为抗冻性-1(Fr-1)。第二个位点Fr-2与12个以上Cbf基因的簇重合。拟南芥中的Cbf同源物在冷驯化和抗冻性的获得中起关键调节作用。在此我们报道,大麦(Hordeum vulgare)位点VRN-H1/Fr-H1影响Fr-H2处多个大麦Cbf基因的表达。对一个‘Nure’בTremois’大麦作图群体进行RNA印迹分析,该群体在VRN-H1/Fr-H1和Fr-H2处发生分离,结果显示,在携带vrn-H1冬性等位基因的重组体中,Fr-H2处所有冷诱导Cbf基因的转录水平显著高于携带Vrn-H1春性等位基因的重组体。在Fr-H2处携带Nure等位基因的重组体中,Cbf2和Cbf4的稳态水平也显著更高。额外的实验表明,在需要春化的vrn-H1基因型中,植物春化后Cbf表达水平受到抑制,Cbf表达受到抑制的同时Vrn-1表达强劲。短日条件下生长的植物中Cbf水平也显著高于长日条件下生长的植物。小麦和黑麦的实验表明,这些植物中发生了类似的调控机制。这些结果表明,VRN-H1/Fr-H1部分作用是抑制或减弱Fr-H2处Cbf的表达;并且归因于Nure Fr-H2等位基因的更高水平的低温耐受性可能是由于在正常生长和发育过程中Cbf2和Cbf4转录本的积累更多。
