ABP1是拟南芥胚胎发生过程中有组织的细胞伸长和分裂所必需的。
ABP1 is required for organized cell elongation and division in Arabidopsis embryogenesis.
作者信息
Chen J G, Ullah H, Young J C, Sussman M R, Jones A M
机构信息
Department of Biology, The University of North Carolina at Chapel Hill, Chapel Hill, North Carolina 27599, USA.
出版信息
Genes Dev. 2001 Apr 1;15(7):902-11. doi: 10.1101/gad.866201.
Abstract
To directly address the function of a putative auxin receptor designated ABP1, a reverse genetic approach was taken to identify and characterize ABP1 mutant alleles in Arabidopsis. A homozygous null mutation in ABP1 confers embryo lethality. Null mutant embryos develop normally until the early stages of the globular embryo but are unable to make the transition to a bilaterally symmetrical structure because cells fail to elongate. Cell division was also aberrant both in the suspensor and embryo proper. Antisense suppression of ABP1 in tobacco cells causes slow proliferation and eliminates auxin-induced cell elongation and reduces cell division. The complete lack of auxin-inducible elongation in individual cells confirms the results observed in embryos, indicates a cell autonomous function, and, taken together with biochemical evidence that ABP1 binds auxins, suggests that ABP1 mediates auxin-induced cell elongation and, directly or indirectly, cell division.
摘要
为了直接研究一种假定的生长素受体ABP1的功能,我们采用反向遗传学方法来鉴定和表征拟南芥中的ABP1突变等位基因。ABP1中的纯合无效突变导致胚胎致死。无效突变胚胎在球形胚早期之前发育正常,但由于细胞无法伸长,无法过渡到两侧对称结构。在胚柄和胚体中细胞分裂也异常。烟草细胞中ABP1的反义抑制导致增殖缓慢,消除了生长素诱导的细胞伸长并减少了细胞分裂。单个细胞中完全缺乏生长素诱导的伸长证实了在胚胎中观察到的结果,表明了细胞自主功能,并且与ABP1结合生长素的生化证据一起,表明ABP1介导生长素诱导的细胞伸长,并且直接或间接地介导细胞分裂。
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