Solution structure of thioredoxin h 1 from Arabidopsis thaliana

Abstract

Present in virtually every species, thioredoxins catalyze disulfide/dithiol exchange with various substrate proteins. While the human genome contains a single thioredoxin gene, plant thioredoxins are a complex protein family. A total of 19 different thioredoxin genes in six subfamilies has emerged from analysis of the Arabidopsis thaliana genome. Some function specifically in mitochondrial and chloroplast redox signaling processes, but target substrates for a group of eight thioredoxin proteins comprising the h subfamily are largely uncharacterized. In the course of a structural genomics effort directed at the recently completed A. thaliana genome, we determined the structure of thioredoxin h 1 (At3g51030.1) in the oxidized state. The structure, defined by 1637 NMR‐derived distance and torsion angle constraints, displays the conserved thioredoxin fold, consisting of a five‐stranded β‐sheet flanked by four helices. Redox‐dependent chemical shift perturbations mapped primarily to the conserved WCGPC active‐site sequence and other nearby residues, but distant regions of the C‐terminal helix were also affected by reduction of the active‐site disulfide. Comparisons of the oxidized A. thaliana thioredoxin h 1 structure with an h ‐type thioredoxin from poplar in the reduced state revealed structural differences in the C‐terminal helix but no major changes in the active site conformation.