- 著者
- Wakana Tanaka Takaki Yamauchi Katsutoshi Tsuda
- 出版者
- Japanese Society of Breeding
- 雑誌
- Breeding Science (ISSN:13447610)
- 巻号頁・発行日
- vol.73, no.1, pp.3-45, 2023 (Released:2023-04-15)
- 参考文献数
- 422
- 被引用文献数
- 13
The shoot and root system architectures are fundamental for crop productivity. During the history of artificial selection of domestication and post-domestication breeding, the architecture of rice has significantly changed from its wild ancestor to fulfil requirements in agriculture. We review the recent studies on developmental biology in rice by focusing on components determining rice plant architecture; shoot meristems, leaves, tillers, stems, inflorescences and roots. We also highlight natural variations that affected these structures and were utilized in cultivars. Importantly, many core regulators identified from developmental mutants have been utilized in breeding as weak alleles moderately affecting these architectures. Given a surge of functional genomics and genome editing, the genetic mechanisms underlying the rice plant architecture discussed here will provide a theoretical basis to push breeding further forward not only in rice but also in other crops and their wild relatives.
1 0 0 0 OA Complementation and protein localization analyses of R3 MYBs in an Arabidopsis caprice mutant
- 著者
- Juri Wakamatsu Kosuke Nagao Wakana Tanaka Dong Qin Rumi Tominaga
- 出版者
- Japanese Society for Plant Biotechnology
- 雑誌
- Plant Biotechnology (ISSN:13424580)
- 巻号頁・発行日
- vol.40, no.1, pp.99-103, 2023-03-25 (Released:2023-03-25)
- 参考文献数
- 32
Root hairs play vital roles in plant growth since they enable the efficient absorption of water and nutrients from the soil. Recent advances in Arabidopsis research have provided a deeper understanding of the molecular genetic mechanisms underlying root hair differentiation. CAPRICE (CPC) and its four homologs, which belong to the CPC gene family and encode R3 MYB transcription factors, play central roles in root hair differentiation. In this study, to better understand the functional specificity and contribution of these five CPC family genes, we conducted phenotypic and expression analyses of the CPC family proteins in a cpc mutant background. As a result, ENHANCER OF TRY AND CPC1 (ETC1) and ETC3 were found to complement the hairless root phenotype of the cpc mutant, as did CPC, whereas TRIPTYCHON (TRY) and ETC2 did not rescue the cpc phenotype. Protein expression analysis revealed that GFP fluorescence was nearly undetectable in pCPC::TRY:GFP/cpc and pCPC::ETC2:GFP/cpc plants, supporting the incapability of root hair formation in these plants. Interestingly, the fluorescence intensity of the CPC:GFP fusion protein was weaker than that of ETC1:GFP and ETC3:GFP fusion proteins. These results were inconsistent with the result of the phenotypic analysis, in which the three genes promoted root hair formation to almost the same degree in the cpc mutant background. We further discuss the discrepancy between the root hair phenotypes and the expression levels of CPC family proteins.