ATL54, a RING-H2 domain protein selected by a gene co-expression network analysis, is associated with secondary cell wall formation in Arabidopsis

Abstract

Biosynthesis of plant secondary cell walls is controlled by several master transcription factors. Ubiquity lipases, which mediate ubiquitination of proteins, including transcription factors in the protein degradation pathway, are also believed to regulate secondary wall biosynthesis; however, the exact ubiquity lipases involved in secondary wall formation have not yet been identified. We conducted a gene co-expression network analysis and found that ATL54, annotated as a RING-finger protein, was highly co-expressed with several transcription factor and enzyme genes involved in secondary wall formation. A recombinant ATL54 protein showed ubiquity lipase activity. Te expression of several biosynthetic genes of cellulose, lignin, and xylan in apical portions of inflorescence stems was up-regulated by ATL54 knock-out. Te expression of Xylem Cysteine Peptidase1 (XCP1), which participates in the programmed cell death process of xylem tracheary elements, was down-regulated in middle stem portions of both ATL54-knock-out and ATL54-overexpressed mutants. Alteration of ATL54 expression levels did not, however, affect lignin and polysaccharide content and composition in whole mature stems. Our results suggest that ATL54 is an E3 ubiquitin ligase involved in secondary wall biosynthesis and programmed cell death during xylogenesis. © 2013 The Japanese Society for Plant Cell and Molecular Biology.