Photosynthesis, cellulose contents, and ultrastructure changes of mutant rice

What is it about?

The study investigated the photosynthesis efficiency, chlorophyll contents, cellulose contents, chlorophyll fluorescence and ultrastructure changes between screw flag leaf 1 (sfl1) mutant found in Zhenong 34 (Oryza sativa L. ssp. indica) and wild type (WT). The results indicated that the net photosynthesis rate, stomata conductance, intercellular CO2 concentration, and transpiration rate in sfl1 were significantly lower than those in WT. Compared with the WT plant, the chlorophyll a, chlorophyll a+b, Chl a/b, and carotenoid contents in sfl1 were significantly decreased. The study also demonstrated that the cellulose and hemicelluloses contents in sfl1 were significantly lower than those in the WT, while the lignin content was significantly increased in sfl1. Transmission electron micrographs (TEM) revealed that there were distinguishing differences in the chloroplast, mitochondria, and starch grana between sfl1 and WT at the vegetative stage.

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Photo by Aribah Nuur Desyandi on Unsplash

Photo by Aribah Nuur Desyandi on Unsplash

Why is it important?

The importance of this study lies in its contribution to understanding the screw leaf development mechanism in rice. By investigating the differences between the screw flag leaf 1 (sfl1) mutant and wild type (WT) in terms of photosynthesis efficiency, chlorophyll contents, cellulose contents, chlorophyll fluorescence, and ultrastructure changes, the study provides valuable insights into the factors that affect leaf rolling in rice. This information could be useful for future research aimed at improving rice production.

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