| Literature DB >> 32858770 |
Guangheng Zhang1,2, Xin Hou2,3, Li Wang1, Jing Xu1, Jian Chen3, Xue Fu1, Nianwei Shen1, Jinqiang Nian1, Zhuanzhuan Jiang3, Jiang Hu1, Li Zhu1, Yuchun Rao1, Yafei Shi3, Deyong Ren1, Guojun Dong1, Zhenyu Gao1, Longbiao Guo1, Qian Qian1, Sheng Luan2.
Abstract
The biosynthesis and modification of cell wall composition and structure are controlled by hundreds of enzymes and have a direct consequence on plant growth and development. However, the majority of these enzymes has not been functionally characterised. Rice mutants with leaf-rolling phenotypes were screened in a field. Phenotypic analysis under controlled conditions was performed for the selected mutant and the relevant gene was identified by map-based cloning. Cell wall composition was analysed by glycome profiling assay. We identified a photo-sensitive leaf rolling 1 (psl1) mutant with 'napping' (midday depression of photosynthesis) phenotype and reduced growth. The PSL1 gene encodes a cell wall-localised polygalacturonase (PG), a pectin-degrading enzyme. psl1 with a 260-bp deletion in its gene displayed leaf rolling in response to high light intensity and/or low humidity. Biochemical assays revealed PG activity of recombinant PSL1 protein. Significant modifications to cell wall composition in the psl1 mutant compared with the wild-type plants were identified. Such modifications enhanced drought tolerance of the mutant plants by reducing water loss under osmotic stress and drought conditions. Taken together, PSL1 functions as a PG that modifies cell wall biosynthesis, plant development and drought tolerance in rice.Entities:
Keywords: cell wall; drought tolerance; leaf morphogenesis; polygalacturonase (PG); rice (Oryza sativa L.)
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Year: 2020 PMID: 32858770 DOI: 10.1111/nph.16899
Source DB: PubMed Journal: New Phytol ISSN: 0028-646X Impact factor: 10.151