In-droplet hydrogen/deuterium exchange (HDX)-mass spectrometry (MS) experiments have been conducted for peptides of highly varied conformational type. A new model is presented that combines the use of protection factors (PF) from molecular dynamics (MD) simulations with intrinsic HDX rates ( ) to obtain a structure-to-reactivity calibration curve. Using the model, the relationship of peptide structural flexibility and HDX reactivity for different peptides is elucidated. Additionally, the model is used to describe the degree of conformational flexibility and structural bias for the disease-relevant Nt17 peptide; although highly flexible, intrinsically primed for facile conversion to α-helical conformation upon binding with molecular partners imparts significant in-droplet HDX protection for this peptide. In the future, a scale may be developed whereby HDX reactivity is predictive of the degree of structural flexibility and bias (propensity to form 2° structural elements such as α-helix, β-sheet, and β-turn) for intrinsically disordered regions (IDRs). Such structural resolution may ultimately be used for high-throughput screening of IDR structural transformation(s) upon binding of ligands such as drug candidates.
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| http://dx.doi.org/10.1021/acsphyschemau.4c00048 | DOI Listing |
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Structure Characterization of a Disordered Peptide Using In-Droplet Hydrogen/Deuterium Exchange Mass Spectrometry and Molecular Dynamics.
ACS Phys Chem Au
January 2025
Department of Chemistry, West Virginia University, Morgantown, West Virginia 26506, United States.
In-droplet hydrogen/deuterium exchange (HDX)-mass spectrometry (MS) experiments have been conducted for peptides of highly varied conformational type. A new model is presented that combines the use of protection factors (PF) from molecular dynamics (MD) simulations with intrinsic HDX rates ( ) to obtain a structure-to-reactivity calibration curve. Using the model, the relationship of peptide structural flexibility and HDX reactivity for different peptides is elucidated.
View Article and Find Full Text PDFExamining DNA Structures with In-droplet Hydrogen/Deuterium Exchange Mass Spectrometry.
Int J Mass Spectrom
May 2024
C. Eugene Bennett Department of Chemistry, West Virginia University, Morgantown, WV, USA.
Article Synopsis
- cVSSI and HDX-MS were used to study various DNA forms, including G-quadruplexes, triplex, and duplex DNA, revealing their conformational properties.
- G-quadruplex DNA showed a 12% to 21% range in deuterium uptake, with different topologies having varying stability and protection levels of hydrogens.
- The findings suggest that G-quadruplex structures exhibit unique hydrogen protection characteristics, and the study sets the stage for future research on DNA conformations and flexibility.
In-droplet hydrogen-deuterium exchange to examine protein/peptide solution conformer heterogeneity.
Rapid Commun Mass Spectrom
August 2023
C. Eugene Bennett Department of Chemistry, West Virginia University, Morgantown, West Virginia, USA.
Rationale: Many different structure analysis techniques are not capable of probing the heterogeneity of solution conformations. Here, we examine the ability of in-droplet hydrogen-deuterium exchange (HDX) to directly probe solution conformer heterogeneity of a protein with mass spectrometry (MS) detection.
Methods: Two vibrating capillary vibrating sharp-edge spray ionization (cVSSI) devices have been arranged such that they generate microdroplet plumes of the analyte and D O reagent, which coalesce to form reaction droplets where HDX takes place in the solution environment.
Characterizing Multidevice Capillary Vibrating Sharp-Edge Spray Ionization for Hydrogen/Deuterium Exchange to Enhance Compound Identification.
ACS Omega
July 2021
C. Eugene Bennettt Department of Chemistry, West Virginia University, Morgantown, West Virginia 26506, United States.
Multidevice capillary vibrating sharp-edge spray ionization (cVSSI) source parameters have been examined to determine their effects on conducting hydrogen/deuterium exchange (HDX) experiments. Control experiments using select compounds indicate that the observed differences in mass spectral isotopic distributions obtained upon initiation of HDX result primarily from solution-phase reactions as opposed to gas-phase exchange. Preliminary studies have determined that robust HDX can only be achieved with the application of same-polarity voltage to both the analyte and the deuterium oxide reagent (DO) cVSSI devices.
View Article and Find Full Text PDFDistinguishing Carbohydrate Isomers with Rapid Hydrogen/Deuterium Exchange-Mass Spectrometry.
J Am Soc Mass Spectrom
January 2021
Department of Chemistry & Biochemistry, Baylor University, One Bear Place #97348, Waco, Texas 76798, United States.
Carbohydrates play key roles in facilitating cellular functions, yet characterizing their structures is analytically challenging due to the presence of epimers, regioisomers, and stereoisomers. In-electrospray-hydrogen/deuterium exchange-mass spectrometry (in-ESI HDX-MS) is a rapid HDX method that samples solvated carbohydrates with minimal instrument modification. When applied to proteins, HDX is often measured after multiple time points to sample the dynamics of structures.
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