Journal ArticleDOI
Intracellular Photoreceptive Site for Polarotropism in Protonema of the Fern Adiantum capillus-veneris L.
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This article is published in Plant and Cell Physiology.The article was published on 1981-12-01. It has received 94 citations till now. The article focuses on the topics: Adiantum capillus-veneris & Protonema.read more
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Journal ArticleDOI
Erect leaves caused by brassinosteroid deficiency increase biomass production and grain yield in rice.
Tomoaki Sakamoto,Yoichi Morinaka,Toshiyuki Ohnishi,Hidehiko Sunohara,Shozo Fujioka,Miyako Ueguchi-Tanaka,Masaharu Mizutani,Kanzo Sakata,Suguru Takatsuto,Shigeo Yoshida,Hiroshi Tanaka,Hidemi Kitano,Makoto Matsuoka +12 more
TL;DR: It is shown that the erect leaf phenotype of a rice brassinosteroid–deficient mutant, osdwarf4-1, is associated with enhanced grain yields under conditions of dense planting, even without extra fertilizer, suggesting that regulated genetic modulation of brassinosterone biosynthesis can improve crops without the negative environmental effects of fertilizers.
Journal ArticleDOI
GW5 acts in the brassinosteroid signalling pathway to regulate grain width and weight in rice
Jiafan Liu,Jun Chen,Xiaoming Zheng,Fuqing Wu,Qibing Lin,Yueqin Heng,Peng Tian,Zhijun Cheng,Xiaowen Yu,Kunneng Zhou,Xin Zhang,Xiuping Guo,Jiulin Wang,Haiyang Wang,Jianmin Wan +14 more
TL;DR: The results suggest that GW5 is a novel positive regulator of BR signalling and a viable target for genetic manipulation to improve grain yield in rice and perhaps in other cereal crops as well.
Journal ArticleDOI
Brassinosteroid-mediated regulation of agronomic traits in rice.
Cui Zhang,Ming-Yi Bai,Kang Chong +2 more
TL;DR: The function of novel components including LEAF and TILLER ANGLE INCREASED CONTROLLer (LIC), DWARF and LOW-TILLERING (DLT), DwarF1 (D1) and TAIHU DWARf1 (TUD1) in rice BR signaling are discussed, and a rice BR-signaling pathway model that involves a BRI1-dependent pathway as well as a G-protein α sub
Journal ArticleDOI
Rice leaf inclination2, a VIN3-like protein, regulates leaf angle through modulating cell division of the collar.
TL;DR: Complementary expression of LC2 reversed the enlarged leaf angles of lc2 plants, confirming its role in controlling leaf inclination and mediating hormone effects.
Book ChapterDOI
Structural and Functional Diversity of Ferredoxins and Related Proteins
Hiroshi Matsubara,Kazuhiko Saeki +1 more
TL;DR: There is no evidence as of now if the same mechanism as suggested for the spinach chloroplast system can be true also for other Fe–S proteins.