Lee Young Koung, Kim Gyung-Tae, Kim In-Jung, Park Jeongmoo, Kwak Sang-Soo, Choi Giltsu, Chung Won-Il
Department of Biological Sciences, KAIST, Daejeon 305-701, Korea.
Development. 2006 Nov;133(21):4305-14. doi: 10.1242/dev.02604.
Plants have diversified their leaf morphologies to adapt to diverse ecological niches. The molecular components responsible for regulating leaf morphology, however, have not been fully elucidated. By screening Arabidopsis activation-tagging lines, we identified a dominant mutant, which we designated longifolia1-1D (lng1-1D). lng1-1D plants were characterized by long petioles, narrow but extremely long leaf blades with serrated margins, elongated floral organs, and elongated siliques. The elongated leaves of the mutant were due to increased polar cell elongation rather than increased cell proliferation. Molecular characterization revealed that this phenotype was caused by overexpression of the novel gene LNG1, which was found to have a homolog, LNG2,in Arabidopsis. To further examine the role of the LNG genes, we characterized lng1 and lng2 loss-of-function mutant lines. In contrast to the elongated leaves of lng1-1D plants, the lng1 and lng2 mutants showed slightly decreased leaf length. Furthermore, the lng1-3 lng2-1 double mutant showed further decreased leaf length associated with less longitudinal polar cell elongation. The leaf widths in lng1-3 lng2-1 mutant plants were similar to those in wild type, implying that the role of LNG1 and LNG2 on polar cell elongation is similar to that of ROTUNDIFOLIA3 (ROT3). However, analysis of a lng1-3 lng2-1 rot3-1 triple mutant and of a lng1-1D rot3-1 double mutant indicated that LNG1 and LNG2 promote longitudinal cell elongation independently of ROT3. Taken together, these findings indicate that LNG1 and LNG2 are new components that regulate leaf morphology by positively promoting longitudinal polar cell elongation independently of ROT3 in Arabidopsis.
植物已经使其叶片形态多样化以适应不同的生态位。然而,负责调节叶片形态的分子成分尚未完全阐明。通过筛选拟南芥激活标签系,我们鉴定出一个显性突变体,我们将其命名为longifolia1-1D(lng1-1D)。lng1-1D植株的特征是叶柄长、叶片狭窄但极长且边缘有锯齿、花器官伸长以及角果伸长。突变体的叶片伸长是由于极性细胞伸长增加而非细胞增殖增加。分子特征分析表明,这种表型是由新基因LNG1的过表达引起的,该基因在拟南芥中有一个同源基因LNG2。为了进一步研究LNG基因的作用,我们对lng1和lng2功能缺失突变体系进行了特征分析。与lng1-1D植株的伸长叶片相反,lng1和lng2突变体的叶片长度略有缩短。此外,lng1-3 lng2-1双突变体的叶片长度进一步缩短,且纵向极性细胞伸长减少。lng1-3 lng2-1突变体植株的叶片宽度与野生型相似,这意味着LNG1和LNG2对极性细胞伸长的作用与ROTUNDIFOLIA3(ROT3)相似。然而,对lng1-3 lng2-1 rot3-1三突变体和lng1-1D rot3-1双突变体的分析表明,LNG1和LNG2独立于ROT3促进纵向细胞伸长。综上所述,这些发现表明,LNG1和LNG2是通过在拟南芥中独立于ROT3正向促进纵向极性细胞伸长来调节叶片形态的新成分。
