水稻KNOX同源异型域蛋白OSH15保守结构域的功能分析
Functional analysis of the conserved domains of a rice KNOX homeodomain protein, OSH15.
作者信息
Nagasaki H, Sakamoto T, Sato Y, Matsuoka M
机构信息
BioScience Center, Nagoya University, Chikusa, Nagoya 464-0814, Japan.
出版信息
Plant Cell. 2001 Sep;13(9):2085-98. doi: 10.1105/tpc.010113.
Abstract
The rice KNOX protein OSH15 consists of four conserved domains: the MEINOX domain, which can be divided into two subdomains (KNOX1 and KNOX2); the GSE domain; the ELK domain; and the homeodomain (HD). To investigate the function of each domain, we generated 10 truncated proteins with deletions in the conserved domains and four proteins with mutations in the conserved amino acids in the HD. Transgenic analysis suggested that KNOX2 and HD are essential for inducing the abnormal phenotype and that the KNOX1 and ELK domains affect phenotype severity. We also found that both KNOX2 and HD are necessary for homodimerization and that only HD is needed for binding of OSH15 to its target sequence. Transactivation studies suggested that both the KNOX1 and ELK domains play a role in suppressing target gene expression. On the basis of these findings, we propose that overproduced OSH15 probably acts as a dimer and may ectopically suppress the expression of target genes that induce abnormal morphology in transgenic plants.
摘要
水稻KNOX蛋白OSH15由四个保守结构域组成:MEINOX结构域,可分为两个亚结构域(KNOX1和KNOX2);GSE结构域;ELK结构域;以及同源结构域(HD)。为了研究每个结构域的功能,我们生成了10个在保守结构域中有缺失的截短蛋白和4个在HD保守氨基酸中有突变的蛋白。转基因分析表明,KNOX2和HD对于诱导异常表型至关重要,而KNOX1和ELK结构域影响表型严重程度。我们还发现,KNOX2和HD对于同源二聚化都是必需的,并且OSH15与靶序列结合仅需要HD。反式激活研究表明,KNOX1和ELK结构域在抑制靶基因表达中都发挥作用。基于这些发现,我们提出过量产生的OSH15可能作为二聚体起作用,并且可能异位抑制在转基因植物中诱导异常形态的靶基因的表达。
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