LAUSR

The size of rice leaves is tightly controlled by environmental and genetic factors. Several functional genes control leaf growth and development by regulating cell expansion and cell cycle activity. The regulation of leaf growth, particularly the effects of environmental conditions on leaf size, is still poorly understood. We examined the environmental control of leaf size in rice (Oryza sativa) by performing a comparative proteomic analysis, which showed that exposure to high-nitrogen levels produced enlarged leaves. The enhanced leaf growth occurred mainly as a result of an increased number of cell cycles. Two proteins related to cell division, FtsZ and ERBB3 binding protein, were increased by nitrogen treatment in the developing leaves. The expression of a type-A response regulator, OsRR2, was also elevated in developing leaves. OsRR2 acts as a negative regulator of cytokinin signaling and may reduce the cytokinin content in developing leaves; a low cytokinin level is necessary for leaf development. By analyzing the proteome response to nitrogen in both developing and mature leaves, we provide deeper insight into the mechanism by which nitrogen treatment affects the phenotype.