GAMYB Controls Different Sets of Genes and is Differentially Regulated by MicroRNA in Aleurone Cells and Anthers

Overview

Journal Plant J

Specialties Biology
Cell Biology
Molecular Biology

Date 2006 Jun 24

PMID 16792694

Citations 117

Authors

Hiroyuki Tsuji

Koichiro Aya

Miyako Ueguchi-Tanaka

Yukihisa Shimada

Mikio Nakazono

Ryosuke Watanabe

Naoko K Nishizawa

Kenji Gomi

Asako Shimada

Hidemi Kitano

Motoyuki Ashikari

Makoto Matsuoka

Affiliations

Soon will be listed here.

Abstract

GAMYB is a component of gibberellin (GA) signaling in cereal aleurone cells, and has an important role in flower development. However, it is unclear how GAMYB function is regulated. We examined the involvement of a microRNA, miR159, in the regulation of GAMYB expression in cereal aleurone cells and flower development. In aleurone cells, no miR159 expression was observed with or without GA treatment, suggesting that miR159 is not involved in the regulation of GAMYB and GAMYB-like genes in this tissue. miR159 was expressed in tissues other than aleurone, and miR159 over-expressors showed similar but more severe phenotypes than the gamyb mutant. GAMYB and GAMYB-like genes are co-expressed with miR159 in anthers, and the mRNA levels for GAMYB and GAMYB-like genes are negatively correlated with miR159 levels during anther development. Thus, OsGAMYB and OsGAMYB-like genes are regulated by miR159 in flowers. A microarray analysis revealed that OsGAMYB and its upstream regulator SLR1 are involved in the regulation of almost all GA-mediated gene expression in rice aleurone cells. Moreover, different sets of genes are regulated by GAMYB in aleurone cells and anthers. GAMYB binds directly to promoter regions of its target genes in anthers as well as aleurone cells. Based on these observations, we suggest that the regulation of GAMYB expression and GAMYB function are different in aleurone cells and flowers in rice.

Citing Articles

Genome-Wide Dissection of Selection on microRNA Target Genes Involved in Rice Flower Development.

Zhang F, Ling L, Gao L Plants (Basel). 2024; 13(23).

PMID: 39683074 PMC: 11644493. DOI: 10.3390/plants13233281.

The rice microRNA159-SPOROCYTELESS EAR2 module regulates starch biosynthesis during pollen development and maintains male fertility.

Tao J, Kong W, Luo W, Wang L, Dai X, Lin X Plant Cell. 2024; 37(1).

PMID: 39665752 PMC: 11684084. DOI: 10.1093/plcell/koae324.

Transcription Factors and Their Regulatory Roles in the Male Gametophyte Development of Flowering Plants.

Qian Z, Shi D, Zhang H, Li Z, Huang L, Yan X Int J Mol Sci. 2024; 25(1).

PMID: 38203741 PMC: 10778882. DOI: 10.3390/ijms25010566.

Function identification of miR159a, a positive regulator during poplar resistance to drought stress.

Fu T, Wang C, Yang Y, Yang X, Wang J, Zhang L Hortic Res. 2023; 10(12):uhad221.

PMID: 38077498 PMC: 10709547. DOI: 10.1093/hr/uhad221.

regulates multiple aspects of stamen and carpel development and requires dissection and delimitation of differential downstream regulatory network for manipulating fertility traits.

Anand S, Lal M, Bhardwaj E, Shukla R, Pokhriyal E, Jain A Physiol Mol Biol Plants. 2023; 29(10):1437-1456.

PMID: 38076769 PMC: 10709278. DOI: 10.1007/s12298-023-01377-7.