The Arabidopsis CBF cold response pathway has a central role in cold acclimation, the process whereby plants increase in freezing tolerance in response to low nonfreezing temperatures. Here we examined the changes that occur in the Arabidopsis metabolome in response to low temperature and assessed the role of the CBF cold response pathway in bringing about these modifications. Of 434 metabolites monitored by GC-time-of-flight MS, 325 (75%) were found to increase in Arabidopsis Wassilewskija-2 (Ws-2) plants in response to low temperature. Of these 325 metabolites, 256 (79%) also increased in nonacclimated Ws-2 plants in response to overexpression of C-repeat/dehydration responsive element-binding factor (CBF)3. Extensive cold-induced changes also occurred in the metabolome of Arabidopsis Cape Verde Islands-1 (Cvi-1) plants, which were found to be less freezing tolerant than Ws-2 plants. However, low-temperature-induced expression of CBF1, CBF2, CBF3, and CBF-targeted genes was much lower in Cvi-1 than in Ws-2 plants, and the low-temperature metabolome of Cvi-1 plants was depleted in metabolites affected by CBF3 overexpression. Taken together, the results indicate that the metabolome of Arabidopsis is extensively reconfigured in response to low temperature, and that the CBF cold response pathway has a prominent role in this process.

译文

拟南芥CBF的冷响应途径在冷驯化中起着核心作用,在该过程中,植物对低非冻结温度的响应提高了其耐寒性。在这里,我们检查了响应低温的拟南芥代谢组中发生的变化,并评估了CBF冷响应途径在实现这些修饰中的作用。 GC飞行时间质谱仪监测的434种代谢产物中,发现325种(75%)的拟南芥Wassilewskija-2(Ws-2)植物响应低温而增加。在这325种代谢产物中,响应于C重复/脱水反应性元素结合因子(CBF)3的过表达,在未适应的Ws-2植物中也增加了256种(79%)。拟南芥佛得角群岛-1(Cvi-1)植物的代谢组中也发生了广泛的冷诱导变化,发现该植物的耐寒性低于Ws-2植物。但是,低温诱导的CBF1,CBF2,CBF3和CBF靶向基因的表达在Cvi-1中比在Ws-2植物中低得多,并且Cvi-1植物的低温代谢组在受影响的代谢物中被消耗掉了由CBF3过度表达。两者合计,结果表明拟南芥的代谢组被广泛地配置以响应低温,并且CBF冷响应途径在这一过程中具有重要作用。

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