Faculty of Advanced Life Science and Graduate School of Life Science, Hokkaido University, Kita-ku, Sapporo, Japan.
J Plant Res. 2010 Sep;123(5):701-6. doi: 10.1007/s10265-010-0321-x. Epub 2010 Mar 2.
The ubiquitin/26S proteasome pathway plays a central role in the degradation of short-lived regulatory proteins to control many cellular events. The Arabidopsis knockout mutant rpt2a, which contains a defect in the AtRPT2a subunit of the 26S proteasome regulatory particle, showed enlarged leaves caused by increased cell size that correlated with increased ploidy caused by extended endoreduplication. To clarify the role of RPT2a in endoreduplication control, trichome development was genetically examined in further detail. RHL1 and GL3 encode proteins that have a role in the positive regulation of endocycle progression in trichomes. The rhl1 mutants are stalled at 8C and have trichomes with only a single branch. The rpt2a mutation did not alter the rhl1 mutant phenotype, and trichomes of double rpt2a rhl1 mutants resembled that of single rhl1 mutants. On the other hand, the rpt2a mutation suppressed the gl3 phenotype (stalled at 16C, two trichome branches), and trichomes of the double rpt2a gl3 mutant resembled those of the wild type (WT) plants. Together, these data suggest that RPT2a functions to negatively regulate endocycle progression following completion of the third endoreduplication step mediated by RHL1 (8C-16C).
泛素/26S 蛋白酶体途径在降解短寿命调节蛋白以控制许多细胞事件中起着核心作用。拟南芥的 rpt2a 敲除突变体,其 26S 蛋白酶体调节颗粒的 AtRPT2a 亚基存在缺陷,表现出增大的叶片,这是由于细胞大小增加导致的,与延长内复制引起的多倍体增加有关。为了阐明 RPT2a 在控制内复制中的作用,进一步详细研究了毛状体的发育。RHL1 和 GL3 编码的蛋白质在毛状体中内循环进展的正调控中起作用。rhl1 突变体在 8C 处停滞,并且毛状体只有一个分支。rpt2a 突变没有改变 rhl1 突变体的表型,双 rpt2a rhl1 突变体的毛状体类似于单 rhl1 突变体。另一方面,rpt2a 突变抑制了 gl3 表型(停滞在 16C,有两个毛状体分支),双 rpt2a gl3 突变体的毛状体类似于野生型(WT)植物。这些数据表明,RPT2a 负调控由 RHL1 介导的第三次内复制步骤完成后的内循环进展(8C-16C)。
