Analysis of the Rice Mutant dwarf and gladius leaf 1. Aberrant Katanin-Mediated Microtubule Organization Causes Up-Regulation of Gibberellin Biosynthetic Genes Independently of Gibberellin Signaling

Masahiko Komorisono , Miyako Ueguchi-Tanaka , Ikuko Aichi , Yasuko Hasegawa , Motoyuki Ashikari , Hidemi Kitano , Makoto Matsuoka , and Takashi Sazuka ^*

Bioscience and Biotechnology Center, Nagoya University, Nagoya, Aichi 464-8601, Japan

^* Corresponding author; email: sazuka{at}agr.nagoya-u.ac.jp.

Molecular genetic studies of plant dwarf mutants have indicatedthat gibberellin (GA) and brassinosteroid (BR) are two majorfactors that determine plant height; dwarf mutants that arecaused by other defects are relatively rare, especially in monocotspecies. Here, we report a rice (Oryza sativa) dwarf mutant,dwarf and gladius leaf 1 (dgl1), which exhibits only minimalresponse to GA and BR. In addition to the dwarf phenotype, dgl1produces leaves with abnormally rounded tip regions. Positionalcloning of DGL1 revealed that it encodes a 60-kD microtubule-severingkatanin-like protein. The protein was found to be importantin cell elongation and division, based on the observed cellphenotypes. GA biosynthetic genes are up-regulated in dgl1,but the expression of BR biosynthetic genes is not enhanced.The enhanced expression of GA biosynthetic genes in dgl1 isnot caused by inappropriate GA signaling because the expressionof these genes was repressed by GA₃ treatment, and degradationof the rice DELLA protein SLR1 was triggered by GA₃ in thismutant. Instead, aberrant microtubule organization caused bythe loss of the microtubule-severing function of DGL1 may resultin enhanced expression of GA biosynthetic genes in that enhancedexpression was also observed in a BR-deficient mutant with aberrantmicrotubule organization. These results suggest that the functionof DGL1 is important for cell and organ elongation in rice,and aberrant DGL1-mediated microtubule organization causes up-regulationof gibberellin biosynthetic genes independently of gibberellinsignaling.

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