Stephensonritter2036

Taken together, the results presented herein provide insights into the behaviors of sirtuin protein CobB in bacteria and demonstrate its important biological functions in A. hydrophila. BIOLOGICAL SIGNIFICANCE The sirtuin protein CobB play crucial roles on lysine deacylation, such as desuccinylation and deacetylation in many bacterial species, while the intrinsic behavior of CobB on bacteria remains elusive. The current DIA-based quantitative proteomics analysis showed that the deletion of A. hydrophila cobB significantly affect the intracellular biological processes. Further phenotype assays validated proteomics results. Overall, our data further confirmed the important roles of CobB on the complex protein-protein interaction network regulation in A. hydrophila.Neurotransmittersodium symporters (NSS) are integral membrane proteins (IMP), responsible for reuptake of neurotransmitters from the synaptic cleft. Due to challenges in production of mammalian NSS in their active form, the prokaryotic hydrophobic amino acid transporter, LeuT, served here as a steadfast model for elucidation of structure-function relationship. As NSS proteins reside within phospholipid bilayer, they require stabilization by artificial membrane systems upon their extraction. Right choice of artificial membrane system is crucial as suboptimal detergent and/or lipids can lead to destabilization or non-native stabilization. selleck kinase inhibitor Here we study the effect of related detergents, dodecyl maltoside (DDM) and lauryl maltose neopentyl glycol (LMNG), on the conformational dynamics of LeuT by global HDX-MS, in the presence of functionally relevant ligands. We observed that LeuT is more dynamic when solubilized in DDM compared to LMNG. Moreover, LeuT exhibited increased HDX in the presence of K+ compared to Na+, indicating a more dynamic conformation in the presence of K+. Upon addition of leucine, LeuT underwent additional stabilization relative to the Na+-bound state. Finally, peak broadening was observed, suggesting that LeuT undergoes slow unfolding/refolding dynamics in detergent solution. These slow dynamics were verified by local HDX, also proving that detergents modulate the rate of these dynamics. SIGNIFICANCE Overall, we show the efficacy of global HDX-MS to evaluate the effect of artificial membrane systems on integral membrane proteins and the importance of carefully selecting compatible detergent (and/or lipid) for the solubilization of this class of proteins.Chemical cross-linking is a powerful strategy for elucidating the structures of protein or protein complexes. The distance constraints obtained from cross-linked peptides represent the three-dimensional structures of the protein complexes. Unfortunately, structural analysis using cross-linking approach demands a significant amount of data to elucidate protein structures. This requires the development of several cleavable cross-linkers with different range of spacer chains. An Electron Transfer Dissociation (ETD) tandem mass spectrometry cleavable bond hydrazone was reported. Its fragmentation with conjugated peptides showed promise for the development of a new ETD cleavable cross-linker. However, no cross-linker was developed utilizing this ETD cleavable bond. For the first time, we attempted to develop an ETD cleavable cross-linker utilizing a hydrazone bond. We overcome the pitfall for the synthesis of this cross-linker and an easy synthesis scheme is reported. In this report, we evaluated the performance o field. However, data complexity and false identifications are significant hindrances for unambiguous identification of cross-linked peptides. Confident identifications demand structural studies with cross-linkers with different properties and variable spacer chain lengths. This new ETD cleavable cross-linking workflow will provide additional confidence to overcome these drawbacks and allow us to pinpoint cross-linked peptides confidently.Structural Mass Spectrometry (SMS) provides a comprehensive toolbox for the analysis of protein structure and function. It offers multiple sources of structural information that are increasingly useful for integrative structural modeling of complex protein systems. As MS-based structural workflows scale to larger systems, consistent and coherent data interpretation resources are needed to better support modeling. Unlike the proteomics community, practitioners of SMS lack adequate computational tools. Here, we review new developments in the Mass Spec Studio an expandable ecosystem of workflows for the analysis of complementary SMS techniques with linkages to modeling. Current functionality in the Studio (version 2) supports three major SMS workflows (crosslinking, hydrogen/deuterium exchange and covalent labelling) and two pipelines for structural modeling, with a special focus on data integration. The Mass Spec Studio is an architecture focused on rapid and robust extension of functionality by a community of developers. SIGNIFICANCE This review surveys the new data analysis capabilities within the Mass Spec Studio, a rich framework for rapid software development specifically targeting the community of structural proteomics and structural mass spectrometry. Updates to crosslinking, hydrogen/deuterium-exchange and covalent labeling apps are provided as well as a utility for translating such analyses into restraints that support integrative structural modeling. These new capabilities, together with the underlying design tools and content, provide the community with a wealth of resources to tackle complex structural problem and design new approaches to data analysis.Trypanosome histone N-terminal sequences are very divergent from the other eukaryotes, although they are still decorated by post-translational modifications (PTMs). Here, we used a highly robust workflow to analyze histone PTMs in the parasite Trypanosoma cruzi using mass spectrometry-based (MS-based) data-independent acquisition (DIA). We adapted the workflow for the analysis of the parasite's histone sequences by modifying the software EpiProfile 2.0, improving peptide and PTM quantification accuracy. This workflow could now be applied to the study of 141 T. cruzi modified histone peptides, which we used to investigate the dynamics of histone PTMs along the metacyclogenesis and the life cycle of T. cruzi. Global levels of histone acetylation and methylation fluctuates along metacyclogenesis, however most critical differences were observed between parasite life forms. More than 66 histone PTM changes were detected. Strikingly, the histone PTM pattern of metacyclic trypomastigotes is more similar to epimastigotes than to cellular trypomastigotes.