Recent advances in the genetic regulation of the shape of simple leaves

Abstract

Leaves are major photosynthetic organs, and their diverse shapes and sizes allow adaptation to the natural environment. The early control of leaf shape and size depends on the control of the rate and plane of cell division at the shoot apical meristem and the polarity-dependent cell differentiation in the leaf primordium. In this review, we first summarize knowledge regarding several genes that control the initial stages of leaf formation and leaf polarity (e.g. adaxial-abaxial polarity, symmetry, and flat morphology). Formation of the lateral leaf morphology involves co-ordination of the rates of division and enlargement of leaf cells. Thus, we also summarize information on a number of genes that control these stages of two-dimensional lateral leaf growth (e.g. polarized cell expansion, specific control of cell proliferation, and integration of cell proliferation and expansion). In addition, we discuss several recently identified microRNAs, which are important factors affecting the development of leaf shape via control of spatial and temporal expression of target gene families. We focus on the genetic regulation of leaf shape in the model plant Arabidopsis thaliana from the perspective of spatial and temporal balance among cell proliferation, enlargement, and differentiation, with special emphasis on the results of our own studies. Copyright © Physiologia Plantarum 2006.