Cell type distinct accumulations of mRNA and protein for NADH-dependent glutamate synthase in rice roots in response to the supply of NH 4+

Abstract

Transient and NH 4 +-inducible accumulation of the mRNA for NADH-dependent glutamate synthase (NADH-GOGAT; EC 1.4.1.14) in the roots of rice seedlings was analyzed in situ to identify the cell types responsible for the induction. The mRNA was detected specifically in sclerenchyma cells (the third cell-layer from the root surface), and the maximal accumulation was seen at 3–6 h following the supply of NH 4 + ions. Expression of the NADH-GOGAT gene in sclerenchyma cells was also confirmed using transgenic rice plants expressing GUS reporter gene under the control of rice NADH-GOGAT promoter. On the other hand, clear signals for the NADH-GOGAT protein were detected in epidermial cells and exodermal cells (the first and second cell layers from the root surface) at 12 h, following the supply of NH 4 + ions. The distinct localization of mRNA and protein for NADH-GOGAT suggests that either the mRNA or the translated protein in the sclerenchyma cells is migrated to the root surface. In contrast to NADH-GOGAT protein, Fd-GOGAT (EC 1.4.7.1) protein was detected in sclerenchyma cells, cortex cells, and stele in the rice roots. The distinct localization of the two GOGAT species indicates that they have different roles in the nitrogen metabolism in rice roots.