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TIC236 gain-of-function mutations unveil the link between plastid division and plastid protein import

Authors :
Sihui Luo
Peilin Wang
Chanhong Kim
Hsou-min Li
Dogra
Chen L
Jingyun Fang
Bufan Li
Ildoo Hwang
Publication Year :
2021
Publisher :
Cold Spring Harbor Laboratory, 2021.

Abstract

SummaryThe chloroplast translocons TOC75 and TIC236 are homologs of the bacterial translocation and assembly module (Tam) A and TamB involved in protein export. Here, we unveil a TIC236-allied component, the chloroplast outer membrane protein CRUMPLED LEAF (CRL), absence of which impairs plastid division and induces autoimmune responses in Arabidopsis thaliana. A forward genetic screen aimed at finding crl suppressors revealed multiple TIC236 gain-of-function mutations (TIC236GFs). Despite the low sequence identity between TIC236 and bacterial TamB, each mutated TIC236GF residue is conserved in TamB. Consistently, a tic236- knockdown mutant exhibited multiple lesion phenotypes similar to crl, indicating a shared functionality of CRL and TIC236. Ensuing reverse genetic analyses revealed genetic interaction between CRL and SP1, a RING-type ubiquitin E3 ligase, as well as with the plastid protease FTSH11, which function in TOC and TIC protein turnover, respectively. Loss of either SP1 or FTSH11 rescued crl mutant phenotypes to varying degrees due to increased translocon levels. Consistent with impaired plastid division exhibited by both crl and tic236-knockdown mutants, CRL interacts with the transit peptides of proteins essential in plastid division, and TIC236GF mutant proteins reinforce their import via increased TIC236 stability. Overall, our data shed new light on the links between plastid division, plant stress response and plastid protein import. We have also isolated and characterized the first GF mutants exhibiting increased protein import efficiency, which may inspire chloroplast engineering for agricultural advancement.

Details

Database :
OpenAIRE
Accession number :
edsair.doi...........e68966e13f63cee414c5ef3ffa04a1d0
Full Text :
https://doi.org/10.1101/2021.04.25.441383