Rubisco Accumulation Factor1-like (RAFL) interacts with RAF1 to mediate Rubisco assembly in Arabidopsis.

Rubisco catalysis a rate-limiting step in photosynthesis. It is a complex of eight large (RbcL) and eight small (RbcS) subunits. The biogenesis of Rubisco requires assembly chaperones. One of the key Rubisco assembly chaperones, Rubisco accumulation factor1 (RAF1), assembled as a dimer, acts downstream of chaperonin-assisted RbcL folding by stabilizing RbcL antiparallel dimers for assembly into RbcL8 complexes. In maize, lacking RAF1 causes Rubisco deficient and seedling lethal. A RAF1 homologue, RAF1-like (RAFL), has been detected in Arabidopsis. We found RAFL shares 61.98 % sequence similarity with RAF1. They have similar conserved domains, predicted 3D structures and gene expression pattern. Phylogenetic tree analysis showed that RAFL and RAF1 only present in analyzed dicots, while only one copy of RAF presented in monocots, mosses and green algae. Combined analysis by three different protein-protein interaction methods showed that RAFL interacts with RAF1 both in vivo and in vitro. Taken together, we conclude that RAFL and RAF1 are close paralogous genes, and they can form heterodimer and/or homodimers to mediate Rubisco assembly in Arabidopsis. Copyright © 2024 Elsevier Inc. All rights reserved.

Citation

Yuting Cheng, Bing Yang, Ting Jia, Xueyun Hu. Rubisco Accumulation Factor1-like (RAFL) interacts with RAF1 to mediate Rubisco assembly in Arabidopsis. Biochemical and biophysical research communications. 2024 Mar 15;701:149609

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PMID: 38316092

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