| Literature DB >> 31548267 |
Yuanlin Duan1, Yaguang Chen2, Wenqiang Li2, Meizhen Pan2, Xiaojie Qu2, Xiaoqing Shi2, Zhengzheng Cai2, Huaqing Liu3, Fen Zhao2, Lan Kong2, Yanfang Ye2, Feng Wang3, Yongbiao Xue4, Weiren Wu2.
Abstract
RETINOBLASTOMA-RELATED (RBR) is an essential gene in plants, but its molecular function outside of its role in cell cycle entry remains poorly understood. We characterized the functions of OsRBR1 and OsRBR2 in plant growth and development in rice using both forward- and reverse-genetics methods. The two genes were coexpressed and performed redundant roles in vegetative organs but exhibited separate functions in flowers. OsRBR1 was highly expressed in the floral meristem and regulated the expression of floral homeotic genes to ensure floral organ formation. Mutation of OsRBR1 caused loss of floral meristem identity, resulting in the replacement of lodicules, stamens, and the pistil with either a panicle-like structure or whorls of lemma-like organs. OsRBR2 was preferentially expressed in stamens and promoted pollen formation. Mutation of OsRBR2 led to deformed anthers without pollen. Similar to the protein interaction between AtRBR and AtMSI1 that is essential for floral development in Arabidopsis, OsMSI1 was identified as an interaction partner of OsRBR1 and OsRBR2. OsMSI1 was ubiquitously expressed and appears to be essential for development in rice (Oryza sativa), as the mutation of OsMSI1 was lethal. These results suggest that OsRBR1 and OsRBR2 function with OsMSI1 in reproductive development in rice. This work characterizes further functions of RBRs and improves current understanding of specific regulatory pathways of floral specification and pollen formation in rice.Entities:
Mesh:
Substances:
Year: 2019 PMID: 31548267 PMCID: PMC6878013 DOI: 10.1104/pp.19.00478
Source DB: PubMed Journal: Plant Physiol ISSN: 0032-0889 Impact factor: 8.340