Abstract
Rice is a model plant species for the study of cellulose biosynthesis. We isolated a mutant, S1-24, from ethyl methanesulfonate (EMS)-treated plants of the japonica rice cultivar, Nipponbare. The mutant exhibited brittle culms and other pleiotropic phenotypes such as dwarfism and partial sterility. The brittle culms resulted from reduced mechanical strength due to a defect in thickening of the sclerenchyma cell wall and reduced cellulose content in the culms of the S1-24 mutant. Map-based gene cloning and a complementation assay showed that phenotypes of the S1-24 mutant were caused by a recessive point mutation in the OsCESA7 gene, which encodes cellulose synthase A subunit 7. The missense mutation changed the highly conserved C40 to Y in the zinc finger domain. The OsCESA7 gene is expressed predominantly in the culm at the mature stage, particularly in mechanical tissues such as vascular bundles and sclerenchyma cells, consistent with the brittle phenotype in the culm. These results indicate that OsCESA7 plays an important role in cellulose biosynthesis and plant growth.
Highlights
Mechanical strength is an important agronomic trait in rice
The S1-24 mutant was isolated from plants of the japonica cultivar Nipponbare mutagenized with ethyl methanesulfonate (EMS); it is characterized by brittle culms and leaves that can be broken by bending (Fig 1A and 1B)
And 1F, the elongation length of the first and second internodes of the mutant was reduced by 74% and 73%, respectively, compared with wildtype plants. These results showed that the mutation in S1-24 has a strong effect on the mechanical strength of rice plants
Summary
Mechanical strength is an important agronomic trait in rice. It mainly affects lodging resistance and crop yield. Mechanical strength is provided primarily by the cell wall, and changes in either the structure or composition of the cell wall affects mechanical strength. Brittle culm (bc) mutants exhibit reduced mechanical strength in the culm and other organs. The culms of bc mutant plants can be broken. Bc-related mutants have been identified in several species including barley, rice, maize, and Arabidopsis
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