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Ingole, Kishor D. and Dahale, Shraddha K. and Bhattacharjee, Saikat (2020) Proteomic analysis of SUMO1-SUMOylome changes during defense elicitation in Arabidopsis. Journal of Proteomics. p. 104054. ISSN 18743919
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Proteomic analysis of SUMO1-SUMOylome changes during defense elicitation in Arabidopsis.pdf Restricted to Repository staff only Download (3244Kb) | Request a copy |
Abstract
Rapid adaptation of plants to developmental or physiological cues is facilitated by specific receptors that transduce the signals mostly via post-translational modification (PTM) cascades of downstream partners. Reversible covalent attachment of SMALL UBIQUITIN-LIKE MODIFIER (SUMO), a process termed as SUMOylation, influence growth, development and adaptation of plants to various stresses. Strong regulatory mechanisms maintain the steady-state SUMOylome and mutants with SUMOylation disturbances display mis-primed immunity often with growth consequences. Identity of the SUMO-substrates undergoing SUMOylation changes during defenses however remain largely unknown. Here we exploit either the auto-immune property of an Arabidopsis mutant or defense responses induced in wild-type plants against Pseudomonas syringae pv tomato (PstDC3000) to enrich and identify SUMO1-substrates. Our results demonstrate massive enhancement of SUMO1- conjugates due to increased SUMOylation efficiencies during defense responses. Of the 261 proteins we identify, 29 have been previously implicated in immune-associated processes. Role of others expand to diverse cellular roles indicating massive readjustments the SUMOylome alterations may cause during induction of immunity. Overall, our study highlights the complexities of a plant immune network and identifies multiple SUMOsubstrates that may orchestrate the signaling. Significance: In all eukaryotes, covalent linkage of the SMALL UBIQUITIN-LIKE MODIFIER (SUMOs), a process termed as SUMOylation, on target proteins affect their fate and function. Plants display reversible readjustments in the pool of SUMOylated proteins during biotic and abiotic stress responses. Here, we demonstrate net increase in global SUMO1/2-SUMOylome of Arabidopsis thaliana at induction of immunity. We enrich and identify 261 SUMO1-substrates enhanced in defenses that categorize to diverse cellular processes and include novel candidates with uncharacterized immune-associated roles. Overall, our results highlight intricacies of SUMO1- orchestration in defense signaling networks.
| Item Type: | Article |
|---|---|
| Subjects: | Agriculture and Environment |
| Depositing User: | RCB Library |
| Date Deposited: | 04 Jan 2021 09:09 |
| Last Modified: | 04 Jan 2021 09:09 |
| URI: | http://rcb.sciencecentral.in/id/eprint/549 |
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