Takahashi T, Gasch A, Nishizawa N, Chua N H
Laboratory of Plant Molecular Biology, Rockefeller University, New York, New York 10021-6399.
Genes Dev. 1995 Jan 1;9(1):97-107. doi: 10.1101/gad.9.1.97.
We have isolated a recessive mutation named diminuto (dim) from T-DNA transformed lines of Arabidopsis thaliana. Under normal growth conditions, the dim mutant has very short hypocotyls, petioles, stems, and roots because of the reduced size of cells along the longitudinal axes of these organs. In addition, dim results in the development of open cotyledons and primary leaves in dark-grown seedlings. The gene for DIM was cloned by T-DNA tagging. DIM encodes a novel protein of 561 amino acids that possesses bipartite sequence domains characteristic of nuclear localization signals. Molecular and physiological studies indicate that the loss-of-function mutant allele does not abolish the response of seedlings to light or phytohormones, although the inhibitory effect of light on hypocotyl elongation is greater in the mutant than in wild type. Moreover, the dim mutation affects the expression of a beta-tubulin gene, TUB1, which is thought to be important for plant cell growth. Our results suggest that the DIM gene product plays a critical role in the general process of plant cell elongation.
我们从拟南芥的T-DNA转化株系中分离出一个名为diminuto(dim)的隐性突变体。在正常生长条件下,dim突变体的下胚轴、叶柄、茎和根都非常短,这是因为这些器官纵轴上的细胞尺寸减小。此外,dim导致黑暗中生长的幼苗子叶和初生叶张开。通过T-DNA标签法克隆了DIM基因。DIM编码一个由561个氨基酸组成的新蛋白质,该蛋白质具有核定位信号特有的双序列结构域。分子和生理学研究表明,功能缺失突变等位基因并未消除幼苗对光或植物激素的反应,尽管光对突变体下胚轴伸长的抑制作用比野生型更强。此外,dim突变影响β-微管蛋白基因TUB1的表达,该基因被认为对植物细胞生长很重要。我们的结果表明,DIM基因产物在植物细胞伸长的一般过程中起关键作用。
