LIGHT-QUALITY AND IRRADIANCE EFFECTS ON PIGMENTS, LIGHT-HARVESTING PROTEINS AND RUBISCO ACTIVITY IN A CHLOROPHYLL-HARVESTING AND LIGHT-HARVESTING-DEFICIENT SOYBEAN MUTANT

Soybean (Glycine max [L.] Merrill) plants, normal green (Clark L1) and mutant yellow (Clark y9y9), were grown in (1) full-spectrum solar irradiation; (2) either red plus far-red or blue plus far-red; (3) either red or blue light with no far-red light. Young leaves harvested from first (1TF) trifoliolate or fifth (5TF) trifoliolate stages of development showed that the mutant plants express pigment and protein deficiencies as a direct function of irradiance. Response of the mutant to light quality indicates that blue light slightly enhances expression of the mutation at higher irradiances. Direct response of light-harvesting proteins of photosystem 2 (LHCP2) and light-harvesting protein of photosystem 1 (LHCP1) to light quality increases the ratio of LHCP1/LHCP2 in blue light compared to that in red or red/far-red light. Rubisco proteins and Rubisco activity (leaf area basis) are directly related to irradiance level but are enhanced in blue light over equal irradiance red. This enhancement is not shown in the presence of far-red light.