scholarly journals Thiol-Redox Proteomics to Study Reversible Protein Thiol Oxidations in Bacteria

2018 ◽  
pp. 261-275 ◽  
Author(s):  
Martina Rossius ◽  
Falko Hochgräfe ◽  
Haike Antelmann
Keyword(s):  
Protein Thiol ◽  
Redox Proteomics ◽  
Thiol Redox

scholarly journals Stoichiometric Thiol Redox Proteomics for Quantifying Cellular Responses to Perturbations

Antioxidants ◽  
2021 ◽  
Vol 10 (3) ◽  
pp. 499
Author(s):  
Nicholas Day ◽  
Matthew Gaffrey ◽  
Wei-Jun Qian
Keyword(s):  
Mass Spectrometry ◽  
Quantitative Aspect ◽  
Cysteine Residues ◽  
Protein Thiol ◽  
Absolute Quantitation ◽  
Post Translational Modifications ◽  
Redox Proteomics ◽  
Redox Biology ◽  
Thiol Redox ◽  
And Function

Post-translational modifications regulate the structure and function of proteins that can result in changes to the activity of different pathways. These include modifications altering the redox state of thiol groups on protein cysteine residues, which are sensitive to oxidative environments. While mass spectrometry has advanced the identification of protein thiol modifications and expanded our knowledge of redox-sensitive pathways, the quantitative aspect of this technique is critical for the field of redox proteomics. In this review, we describe how mass spectrometry-based redox proteomics has enabled researchers to accurately quantify the stoichiometry of reversible oxidative modifications on specific cysteine residues of proteins. We will describe advancements in the methodology that allow for the absolute quantitation of thiol modifications, as well as recent reports that have implemented this approach. We will also highlight the significance and application of such measurements and why they are informative for the field of redox biology.

scholarly journals Redox proteomics of stomatal immunity reveals role of a lipid transfer protein in plant defense

2020 ◽  
Author(s):  
Kelly M Balmant ◽  
Sheldon R Lawrence ◽  
Benjamin V Duong ◽  
Fanzhao Zhu ◽  
Ning Zhu ◽  
...  
Keyword(s):  
Plant Defense ◽  
Lipid Transfer Protein ◽  
Guard Cells ◽  
Lipid Binding ◽  
Lipid Transfer ◽  
Redox Proteomics ◽  
Transfer Protein ◽  
Redox Responsive ◽  
Redox Sensors ◽  
Thiol Redox

ABSTRACTRedox-based post-translational modifications (PTMs) involving protein cysteine residues as redox sensors are important to various physiological processes. However, little is known about redox-sensitive proteins in guard cells and their functions in stomatal immunity. In this study, we applied an integrative protein labeling method cysTMTRAQ and identified guard cell proteins that were altered by thiol redox PTMs in response to a bacterial flagellin peptide flg22. In total, eight, seven and 20 potential redox-responsive proteins were identified in guard cells treated with flg22 for 15, 30 and 60 min, respectively. The proteins fall into several functional groups including photosynthesis, lipid binding, oxidation-reduction, and defense. Among the proteins, a lipid transfer protein (LTP)-II was confirmed to be redox-responsive and involved in plant resistance to Pseudomonas syringe pv. tomato DC3000. This study not only creates an inventory of potential redox-sensitive proteins in flg22 signal transduction in guard cells, but also highlights the relevance of the lipid transfer protein in plant defense against the bacterial pathogens.Sentence summaryThiol-redox proteomics identified potential redox sensors important in stomatal immunity, and a lipid transfer protein was characterized to function as a redox sensor in plant immune response.

scholarly journals Characterization of cellular oxidative stress response by stoichiometric redox proteomics

2020 ◽  
Author(s):  
Tong Zhang ◽  
Matthew J. Gaffrey ◽  
Xiaolu Li ◽  
Wei-Jun Qian
Keyword(s):  
Oxidative Stress ◽  
Posttranslational Modifications ◽  
Protein Function ◽  
Regulatory Networks ◽  
Total Oxidation ◽  
Redox Proteomics ◽  
Thiol Redox ◽  
Cysteine Thiols ◽  
In Cells

The thiol redox proteome refers to all proteins whose cysteine thiols are subjected to various redox-dependent posttranslational modifications (PTMs) including S-glutathionylation (SSG), S-nitrosylation (SNO), S-sulfenylation (SOH), and S-sulfhydration (SSH). These modifications can impact various aspects of protein function such as activity, binding, conformation, localization, and interactions with other molecules. To identify novel redox proteins in signaling and regulation, it is highly desirable to have robust redox proteomics methods that can provide global, site-specific, and stoichiometric quantification of redox PTMs. Mass spectrometry (MS)-based redox proteomics has emerged as the primary platform for broad characterization of thiol PTMs in cells and tissues. Herein we review recent advances in MS-based redox proteomics approaches for quantitative profiling of redox PTMs at physiological or oxidative stress conditions and highlight some recent applications. Considering the relative maturity of available methods, emphasis will be on two types of modifications: 1) total oxidation (i.e., all reversible thiol modifications), the level of which represents the overall redox state, and 2) S-glutathionylation, a major form of reversible thiol oxidation. We also discuss the significance of stoichiometric measurements of thiol PTMs as well as future perspectives towards a better understanding of cellular redox regulatory networks in cells and tissues

Radiation Response of Cells during Altered Protein Thiol Redox

2003 ◽  
Vol 159 (4) ◽  
pp. 484-494 ◽  
Author(s):  
John E. Biaglow ◽  
Iraimoudi S. Ayene ◽  
Cameron J. Koch ◽  
Jeremiah Donahue ◽  
Thomas D. Stamato ◽  
...  
Keyword(s):  
Radiation Response ◽  
Protein Thiol ◽  
Altered Protein ◽  
Thiol Redox

scholarly journals Imbalance in Protein Thiol Redox Regulation and Cancer-Preventive Efficacy of Selenium

2016 ◽  
Author(s):  
Rayudu Gopalakrishna ◽  
Usha Gundimeda ◽  
Sarah Zhou ◽  
Kristen Zung ◽  
Kaitlyn Forell ◽  
...  
Keyword(s):  
Redox Regulation ◽  
Protein Thiol ◽  
Preventive Efficacy ◽  
Thiol Redox
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