National Institute of Crop Science, Tsukuba 305-8518, Japan.
Plant Mol Biol. 2011 Sep;77(1-2):129-44. doi: 10.1007/s11103-011-9799-4. Epub 2011 Jun 8.
To understand the transcriptional responses to flooding stress in roots including hypocotyl of soybean seedlings, genome-wide changes in gene expression were analyzed using a soybean microarray chip containing 42,034 60-mer oligonucleotide probes. More than 6,000 of flooding-responsive genes in the roots including hypocotyl of soybean seedlings were identified. The transcriptional analysis showed that genes related to photosynthesis, glycolysis, Ser-Gly-Cys group amino acid synthesis, regulation of transcription, ubiquitin-mediated protein degradation and cell death were significantly up-regulated by flooding. Meanwhile, genes related to cell wall synthesis, secondary metabolism, metabolite transport, cell organization, chromatin structure synthesis, and degradation of aspartate family amino acid were significantly down-regulated. Comparison of the responses with other plants showed that genes encoding pyrophosphate dependent phosphofructokinase were down-regulated in flooded soybean seedlings, however, those in tolerant plants were up-regulated. Additionally, genes related to RNA processing and initiation of protein synthesis were not up-regulated in soybean, however, those in tolerant plants were up-regulated. Furthermore, we found that flooding-specific up-regulation of genes encoding small proteins which might have roles in acclimation to flooding. These results suggest that functional disorder of acclimative responses to flooding through transcriptional and post-transcriptional regulations is involved in occurring flooding injury to soybean seedlings.
为了了解包括大豆幼苗下胚轴在内的根部对水淹胁迫的转录反应,我们使用包含 42034 个 60 碱基寡核苷酸探针的大豆基因芯片分析了基因表达的全基因组变化。在大豆幼苗的根中包括下胚轴在内,鉴定出了 6000 多个水淹响应基因。转录分析表明,与光合作用、糖酵解、Ser-Gly-Cys 组氨基酸合成、转录调控、泛素介导的蛋白质降解和细胞死亡相关的基因被水淹显著上调。同时,与细胞壁合成、次生代谢、代谢物转运、细胞组织、染色质结构合成和天冬氨酸族氨基酸降解相关的基因显著下调。与其他植物的响应比较表明,在水淹的大豆幼苗中,依赖焦磷酸的磷酸果糖激酶的编码基因下调,而在耐淹植物中则上调。此外,与 RNA 加工和蛋白质合成起始相关的基因在大豆中未上调,而在耐淹植物中上调。此外,我们发现编码可能在适应水淹中起作用的小蛋白的基因特异性地上调。这些结果表明,水淹引起的大豆幼苗伤害可能涉及到适应水淹的转录和转录后调节的功能障碍。
