Proteomics

Dataset Information

0

Proteome-wide characterization of human S-acylated proteins


ABSTRACT: Reversible protein S-acylation dynamically regulates the subcellular localization, activity, and stability of proteins, and plays a pivotal role in various diseases such as cancer and neurodegenerative disorders. Nevertheless, a system-wide analysis of S-acylation in human pathophysiology is still elusive, largely due to the lack of a sensitive method for proteome-wide characterization of S-acylation. Via systematic optimization of our original Palmitoyl-protein Identification and Site Characterization (PalmPISC) method, we established the next-generation PalmPISC (ngPalmPISC). The application of ngPalmPISC to human LNCaP cells identified 1,682 known and 1,175 novel candidate S-acylated proteins as well as 1,648 candidate S-acylation sites—a coverage of an order of magnitude larger than any previous studies. Moreover, the large set of S-acylation sites allowed motif enrichment analysis, resulting in the identification of two novel S-acylation motifs CxL and FxC (p<0.01). The ngPalmPISC method and the comprehensive human S-acylproteome dataset are expected to facilitate our system-wide understanding of protein S-acylation in pathophysiology and the discovery of novel biomarkers and therapeutic targets.

INSTRUMENT(S): LTQ Orbitrap Elite

ORGANISM(S): Homo Sapiens (human)

TISSUE(S): Epithelial Cell

DISEASE(S): Prostate Adenocarcinoma

SUBMITTER: Wei Yang  

LAB HEAD: Wei Yang

PROVIDER: PXD006001 | Pride | 2022-02-24

REPOSITORIES: Pride

Dataset's files

Source:
Action DRS
ArgCMinus1.raw Raw
ArgCMinus2.raw Raw
ArgCMinus3.raw Raw
ArgCMinus4.raw Raw
ArgCMinus5.raw Raw
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Publications

Low-Background Acyl-Biotinyl Exchange Largely Eliminates the Coisolation of Non-<i>S</i>-Acylated Proteins and Enables Deep <i>S</i>-Acylproteomic Analysis.

Zhou Bo B   Wang Yang Y   Yan Yiwu Y   Mariscal Javier J   Di Vizio Dolores D   Freeman Michael R MR   Yang Wei W  

Analytical chemistry 20190711 15


Protein <i>S</i>-acylation (also called palmitoylation) is a common post-translational modification whose deregulation plays a key role in the pathogenesis of many diseases. Acyl-biotinyl exchange (ABE), a widely used method for the enrichment of <i>S</i>-acylated proteins, has the potential of capturing the entire <i>S</i>-acylproteome in any type of biological sample. Here, we showed that current ABE methods suffer from a high background arising from the coisolation of non-<i>S</i>-acylated pr  ...[more]

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