Bommert Peter, Lunde China, Nardmann Judith, Vollbrecht Erik, Running Mark, Jackson David, Hake Sarah, Werr Wolfgang
Institut für Entwicklungsbiologie, Universität zu Köln, Gyrhofstrasse 17, D-50923 Köln, Germany.
Development. 2005 Mar;132(6):1235-45. doi: 10.1242/dev.01671. Epub 2005 Feb 16.
Development in higher plants depends on the activity of meristems, formative regions that continuously initiate new organs at their flanks. Meristems must maintain a balance between stem cell renewal and organ initiation. In fasciated mutants, organ initiation fails to keep pace with meristem proliferation. The thick tassel dwarf1 (td1) mutation of maize affects both male and female inflorescence development. The female inflorescence, which results in the ear, is fasciated, with extra rows of kernels. The male inflorescence, or tassel, shows an increase in spikelet density. Floral meristems are also affected in td1 mutants; for example, male florets have an increase in stamen number. These results suggest that td1 functions in the inflorescence to limit meristem size. In addition, td1 mutants are slightly shorter than normal siblings, indicating that td1 also plays a role in vegetative development. td1 encodes a leucine-rich repeat receptor-like kinase (LRR-RLK) that is a putative ortholog of the Arabidopsis CLAVATA1 protein. These results complement previous work showing that fasciated ear2 encodes a CLAVATA2-like protein, and suggest that the CLAVATA signaling pathway is conserved in monocots. td1 maps in the vicinity of quantitative trait loci that affect seed row number, spikelet density and plant height. We discuss the possible selection pressures on td1 during maize domestication.
高等植物的发育依赖于分生组织的活性,分生组织是在其侧面不断产生新器官的形成区域。分生组织必须在干细胞更新和器官起始之间保持平衡。在丛生突变体中,器官起始无法跟上分生组织的增殖速度。玉米的粗雄穗矮化1(td1)突变影响雄花和雌花的花序发育。产生雌穗的雌花序呈丛生状,有额外的几排籽粒。雄花序,即雄穗,小穗密度增加。td1突变体的花分生组织也受到影响;例如,雄小花的雄蕊数量增加。这些结果表明td1在花序中发挥作用以限制分生组织大小。此外,td1突变体比正常的同胞植株略矮,这表明td1在营养生长发育中也起作用。td1编码一种富含亮氨酸重复序列的类受体激酶(LRR-RLK),它是拟南芥CLAVATA1蛋白的一个假定直系同源物。这些结果补充了之前的研究工作,即丛生雌穗2编码一种类CLAVATA2蛋白,并表明CLAVATA信号通路在单子叶植物中是保守的。td1定位在影响籽粒行数、小穗密度和株高的数量性状基因座附近。我们讨论了玉米驯化过程中对td1可能存在的选择压力。
