研究了铁胁迫对赤潮异弯藻细胞生化组成的影响。
The iron-stress mediated effects on biochemical constituents of red tide alga H.
渗透调解物的增加可能是对铁胁迫的一种保护机制。
Maybe the increase in osmotic materials was a protection mechanism against iron stress.
植物基因型之间对缺铁胁迫的这种反应上的差异,给铁高效基因型筛选和遗传育种工作提供了广阔的前景。
The difference of iron deficiency induced stress reaction between different plant genotypes open a broad prospect for selection and breading of high iron efficient plant species.
本文主要在分子生物学水平概括了酵母铁吸收转运机制和植物缺铁胁迫相关基因及其基因表达的研究进展。
The Fe_acquisitionmechanism in yeast, the genes and gene expression under the condition of Fe deficiency stress for plants are summarized in this paper.
对于植物缺铁逆境胁迫分子生理学,这是一套非常有效的研究策略。
This technique will be a useful strategy to investigate how plants react to Fe-deficiency at molecular level.
对于植物缺铁逆境胁迫分子生理学,这是一套非常有效的研究策略。
This technique will be a useful strategy to investigate how plants react to Fe-deficiency at molecular level.
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