Proteomics

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Integrated Dissection of Cysteine Oxidative Modification Proteome During Cardiac Hypertrophy


ABSTRACT: Cysteine oxidative modification of cellular proteins is crucial for many aspects of cardiac hypertrophy development. However, integrated dissection of multiple types of cysteine oxidation proteome in cardiac hypertrophy is currently missing. Here we developed a novel discovery platform encompassing a customized biotin switch-based quantitative proteomics pipeline and an advanced analytic workflow to comprehensively profile the landscape of cysteine oxidation in ISO-induced cardiac hypertrophy mouse model. Specifically, we identified a total of 3,717 proteins containing 6,837 oxidized cysteine sites by at least one of reversible cysteine oxidation, cysteine sulfinylation (CysSO2H), and cysteine sulfonylation (CysSO3H). Analyzing the hypertrophy signatures that are reproducibly discovered from computational workflow highlighted a group of fatty acid beta-oxidation enzymes with a continual decreased temporal pattern and a significant decreased abundance in reversible oxidation with no temporal or abundance change in total cysteine, revealing the oxidative regulatory map of fatty acid metabolism in cardiac hypertrophy, which is featured by an overall reduced oxidative metabolism. Our cysteine oxidation platform depicts a dynamic and integrated landscape of the cysteine oxidative proteome, extracted molecular signature, and provided mechanistic insights in cardiac hypertrophy.

INSTRUMENT(S): LTQ Orbitrap Elite

ORGANISM(S): Mus Musculus (mouse)

TISSUE(S): Heart

DISEASE(S): Cardiovascular System Disease

SUBMITTER: Howard Choi  

LAB HEAD: Peipei Ping

PROVIDER: PXD010336 | Pride | 2018-08-29

REPOSITORIES: Pride

Dataset's files

Source:
Action DRS
Enriched_d01_rep01_dimethyl_.mzML Mzml
Enriched_d01_rep01_dimethyl_.pride.mgf.gz Mgf
Enriched_d01_rep01_dimethyl_4.raw Raw
Enriched_d01_rep01_dimethyl_5.raw Raw
Enriched_d01_rep01_dimethyl_6.raw Raw
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Publications

Integrated Dissection of Cysteine Oxidative Post-translational Modification Proteome During Cardiac Hypertrophy.

Wang Jie J   Choi Howard H   Chung Neo C NC   Cao Quan Q   Ng Dominic C M DCM   Mirza Bilal B   Scruggs Sarah B SB   Wang Ding D   Garlid Anders O AO   Ping Peipei P  

Journal of proteome research 20180831 12


Cysteine oxidative modification of cellular proteins is crucial for many aspects of cardiac hypertrophy development. However, integrated dissection of multiple types of cysteine oxidative post-translational modifications (O-PTM) of proteomes in cardiac hypertrophy is currently missing. Here we developed a novel discovery platform that encompasses a customized biotin switch-based quantitative proteomics pipeline and an advanced analytic workflow to comprehensively profile the landscape of cystein  ...[more]

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