about
SCFFBXL3 ubiquitin ligase targets cryptochromes at their cofactor pocketHexamers of the Type II Secretion ATPase GspE from Vibrio cholerae with Increased ATPase ActivityInfrared spectroscopy of cationized lysine and epsilon-N-methyllysine in the gas phase: effects of alkali-metal ion size and proton affinity on zwitterion stability.Hydration of the calcium dication: direct evidence for second shell formation from infrared spectroscopy.Alkali metal ion binding to glutamine and glutamine derivatives investigated by infrared action spectroscopy and theory.Infrared action spectra of Ca2+(H2O)(11-69) exhibit spectral signatures for condensed-phase structures with increasing cluster size.Proton affinity and zwitterion stability: new results from infrared spectroscopy and theory of cationized lysine and analogues in the gas phase.Hydration of alkaline earth metal dications: effects of metal ion size determined using infrared action spectroscopy.Defining the mechanism of polymerization in the serpinopathies.Nonergodicity in electron capture dissociation investigated using hydrated ion nanocalorimetry.Dissecting heterogeneous molecular chaperone complexes using a mass spectrum deconvolution approach.Analysis of Native-Like Proteins and Protein Complexes Using Cation to Anion Proton Transfer Reactions (CAPTR).Internal energy deposition in electron capture dissociation measured using hydrated divalent metal ions as nanocalorimeters.Formation of hydrated triply charged metal ions from aqueous solutions using nanodrop mass spectrometry.Infrared spectroscopy of cationized arginine in the gas phase: direct evidence for the transition from nonzwitterionic to zwitterionic structure.Large-Scale Structural Characterization of Drug and Drug-Like Compounds by High-Throughput Ion Mobility-Mass Spectrometry.Effects of Drift Gas Selection on the Ambient-Temperature, Ion Mobility Mass Spectrometry Analysis of Amino Acids.Effects of polarity on the structures and charge states of native-like proteins and protein complexes in the gas phase.Absolute standard hydrogen electrode potential measured by reduction of aqueous nanodrops in the gas phase.Collision cross sections of proteins and their complexes: a calibration framework and database for gas-phase structural biology.Reduction energy of 1 M aqueous ruthenium(III) hexaammine in the gas phase: a route toward establishing an absolute electrochemical scale.Electron transfer dissociation of photolabeled peptides. Backbone cleavages compete with diazirine ring rearrangements.Evidence for water rings in the hexahydrated sulfate dianion from IR spectroscopy.Binding energies of water to sodiated valine and structural isomers in the gas phase: the effect of proton affinity on zwitterion stability.Sulfate ion patterns water at long distance.Assigning structures to gas-phase peptide cations and cation-radicals. An infrared multiphoton dissociation, ion mobility, electron transfer, and computational study of a histidine peptide ion.One water molecule stabilizes the cationized arginine zwitterion.Effects of alkaline earth metal ion complexation on amino acid zwitterion stability: results from infrared action spectroscopy.Reactivity and infrared spectroscopy of gaseous hydrated trivalent metal ions.Structural characterization of drug-like compounds by ion mobility mass spectrometry: comparison of theoretical and experimentally derived nitrogen collision cross sections.Effects of Charge State, Charge Distribution, and Structure on the Ion Mobility of Protein Ions in Helium Gas: Results from Trajectory Method Calculations.Binding energies of water to doubly hydrated cationized glutamine and structural analogues in the gas phase.Structures of cationized proline analogues: evidence for the zwitterionic form.Structures and hydration enthalpies of cationized glutamine and structural analogues in the gas phase.Ion mobility mass spectrometry of peptide, protein, and protein complex ions using a radio-frequency confining drift cell.Electron transfer reduction of the diazirine ring in gas-phase peptide ions. On the peculiar loss of [NH4O] from photoleucine.Structures of lithiated lysine and structural analogues in the gas phase: effects of water and proton affinity on zwitterionic stability.Infrared spectroscopy of hydrated amino acids in the gas phase: protonated and lithiated valine.Infrared spectroscopy of arginine cation complexes: direct observation of gas-phase zwitterions.Collision cross sections and ion structures: development of a general calculation method via high-quality ion mobility measurements and theoretical modeling.
P50
Q27676853-37E108BF-9EB0-4E59-8025-D43882107DDFQ27679707-51E2A904-0C2E-4B48-A2ED-DE4BA57731B4Q33291086-72B455AB-1A04-46F5-A2FB-76D7740B9307Q33299336-6043748E-5DAA-4E83-BE12-37961BD41186Q33361699-5E51F2CE-E8EF-4014-8D5A-B697661A7FACQ33378335-BD595126-294C-4005-AF15-9CEADDD1A9BBQ33398116-1E15A832-D121-4613-9C3A-5C2E98E22D60Q33503316-AD91998E-3DCE-4155-A320-919E21E15412Q34182669-730628C1-A8D3-4271-8A9D-2F5541520223Q36082090-0B209088-8D60-4853-8602-E11268D9B5A1Q36281106-BC7DD10E-DB6C-4868-A337-E1E28BA3A2FAQ36304862-78D7B683-AEC3-4AD8-A408-7151F4C3516CQ36921991-10D16D79-3C03-46BA-8238-AA91E69846F9Q37010159-4895464C-2B71-453C-8963-448588D2FBB4Q37176038-E609DD67-2480-4D89-B01D-7EAAFFBFB5CDQ38648778-7E536661-EA97-477E-BB49-53D0BD257937Q38756533-8EA10F46-F764-466B-8903-A05338B5FC4CQ42255908-40CED10F-0940-4B07-A800-7E7FB9BB64C6Q42262372-94F7FEDA-9D53-4661-868B-1BD84B5D0A8FQ42846188-EDBAF927-C836-41A0-90B4-83700E20257BQ43185191-C88964CB-D594-4208-8FA6-E2EFE05BB936Q43787112-BC772B22-4EBA-49C6-A492-13A6C4972CEBQ44033188-DC6124B1-5B96-4F4C-BC45-08B18CCB64D0Q44635084-174E476A-8FE4-427F-A0B6-89D1CBCD2671Q44650602-054CA2D1-442F-4B67-930A-87011734CBBCQ45864195-DF1E95DC-09FE-464C-8C30-CCDD6E9F623EQ46047576-95F829D5-3A83-4511-9120-4A1C5BFC36E8Q46054744-E649EEBA-BB6A-4964-8B4B-19874BBB3475Q46135487-2A3CF5C1-428D-459E-A819-8D076C2E50B4Q46175912-72EAA501-55E0-4285-A1FA-A4A128010095Q46307076-482BD4F8-BA39-4F2D-8316-A5D2E03B1F26Q46325156-30593156-12B8-46D2-8491-2722863C2E0EQ46505964-4765A99B-6467-4C71-9FD7-C96615E991A1Q46608064-2FF7AEEA-328B-4462-9D4E-B03B6B1F1DE3Q46614384-BBA1976C-285E-4AC6-8761-46FD481B1831Q46797897-AFC9C448-3506-41F8-B238-532C6EB310B2Q46866393-887C8D1B-45A0-4692-91FD-92229618ED9FQ46897321-D3FF429C-A822-4E75-9DDD-002EC80FE9C8Q46921742-EE33A67C-09AC-4AC2-92B0-A7027B59EA40Q47789274-22896FAC-9247-4EA1-A25E-3FB7B876529C
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Matthew F. Bush
@ast
Matthew F. Bush
@en
Matthew F. Bush
@es
Matthew F. Bush
@nl
Matthew F. Bush
@sl
type
label
Matthew F. Bush
@ast
Matthew F. Bush
@en
Matthew F. Bush
@es
Matthew F. Bush
@nl
Matthew F. Bush
@sl
prefLabel
Matthew F. Bush
@ast
Matthew F. Bush
@en
Matthew F. Bush
@es
Matthew F. Bush
@nl
Matthew F. Bush
@sl
P106
P1153
8656348900
P21
P31
P496
0000-0003-3526-4973