Less Chlorophyll Does not Necessarily Restrain Light Capture Ability and Photosynthesis in a Chlorophyll‐Deficient Rice Mutant

Abstract

AbstractA chlorophyll‐deficient rice mutant, yellow‐green leaf 1 (ygl1), with a photosynthetic rate similar to that of wild type (Oryza sativa L., cv. Zhenhui 249 China) is presented in this study. Forty percent of the chlorophyll in the mutant captured 70 % of the light in photosystem II (PSII) compared with wild type. The 30 % decreased light in the mutant was compensated for by a relatively higher quantum yield of PSII, which conferred a total electron transport rate (JT) equal to that in wild type. More photons were absorbed by wild type and exhausted through thermal dissipation. Gene expression analysis of the thylakoid membrane showed that the chlorophyll deficiency in the mutant did not impair the electron transport chain. To determine why the photosynthetic rate was similar between the chlorophyll‐deficient mutant and wild type, the leaf nitrogen (N) and Rubisco contents, stomatal and mesophyll CO2 conductance, and chloroplast development were investigated. Our results indicate that the chlorophyll deficiency in the mutant had no negative impact on the chloroplast development in terms of size and grana stacking; moreover, the chloroplastic CO2 concentration and Rubisco content were comparable to those in wild type. We conclude that the light‐capturing ability of normal rice plants is not fully utilized and that absorbed light in the chlorophyll‐deficient mutant is more efficient in participating photosynthesis.