| scholarly article | Q13442814 |
| P2093 | author name string | E R Williams | |
| R A Jockusch | |||
| W D Price | |||
| P2860 | cites work | Blackbody infrared radiative dissociation of bradykinin and its analogues: energetics, dynamics, and evidence for salt-bridge structures in the gas phase | Q24544141 |
| Unimolecular reaction kinetics in the high-pressure limit without collisions | Q34327216 | ||
| Binding energies of the proton-bound amino Acid dimers gly.gly, ala.ala, gly.ala, and lys.lys measured by blackbody infrared radiative dissociation | Q35600707 | ||
| Role of the site of protonation in the low-energy decompositions of gas-phase peptide ions | Q86677490 | ||
| P433 | issue | 49 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | catalysis | Q82264 |
| P1104 | number of pages | 2 | |
| P304 | page(s) | 11988-11989 | |
| P577 | publication date | 1997-12-01 | |
| P1433 | published in | Journal of the American Chemical Society | Q898902 |
| P1476 | title | Is arginine a zwitterion in the gas phase? | |
| P478 | volume | 119 |
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| Q33546273 | Ab initio characterization of building units in peptides and proteins. |
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| Q44964010 | Binding energies of water to lithiated valine: formation of solution-phase structure in vacuo |
| Q34293517 | Blackbody infrared radiative dissociation of oligonucleotide anions |
| Q74234665 | Do amines react with protonated peptides in the gas phase via transacylation reactions to induce peptide bond cleavage? |
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| Q44436708 | Evaluation of ion mobility spectroscopy for determining charge-solvated versus salt-bridge structures of protonated trimers |
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| Q38690787 | Identification of the smallest peptide with a zwitterion as the global minimum: a first-principles study on arginine-containing peptides |
| Q40322076 | Implementation and benchmark of a long-range corrected functional in the density functional based tight-binding method |
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| Q56228313 | Introducing DDEC6 atomic population analysis: part 1. Charge partitioning theory and methodology |
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| Q36370886 | Laser-Induced Acoustic Desorption/Electron Ionization of Amino Acids and Small Peptides |
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| Q24657282 | Modifying the charge state distribution of proteins in electrospray ionization mass spectrometry by chemical derivatization |
| Q34596278 | Molecular recognition and supramolecular chemistry in the gas phase |
| Q59642888 | Partitioning of kinetic energy to internal energy in the low energy collision-induced dissociations of proton-bound dimers of polypeptides |
| Q46563295 | Photoelectron spectroscopy of the [glycine x (H2O)(1,2)]- clusters: sequential hydration shifts and observation of isomers |
| Q42059175 | Reduced Acid Dissociation of Amino-Acids at the Surface of Water |
| Q34022987 | Self-assembly directed by NH...O hydrogen bonding: new layered molecular arrays derived from 4-tert- butylbenzoic acid and aliphatic diamines |
| Q89922154 | Structure of Proton-Bound Methionine and Tryptophan Dimers in the Gas Phase Investigated with IRMPD Spectroscopy and Quantum Chemical Calculations |
| Q34347735 | Structure of cationized arginine (arg.m, m = h, li, na, k, rb, and cs) in the gas phase: further evidence for zwitterionic arginine |
| Q41807434 | Structure of cationized glycine, gly.m (m = be, mg, ca, sr, ba), in the gas phase: intrinsic effect of cation size on zwitterion stability |
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| Q34533116 | Structures of protonated arginine dimer and bradykinin investigated by density functional theory: further support for stable gas-phase salt bridges |
| Q46442131 | The stabilization of arginine's zwitterion by dipole-binding of an excess electron |
| Q31170814 | The structure of gas-phase bradykinin fragment 1-5 (RPPGF) ions: an ion mobility spectrometry and H/D exchange ion-molecule reaction chemistry study |
| Q44979477 | Theoretical spectroscopic studies on chemical and electronic structures of arginylglycine |
| Q92677154 | Theoretical studies of infrared signatures of proton-bound amino acid dimers with homochiral and heterochiral moieties |
| Q34468438 | Unimolecular reactions of dihydrated alkaline earth metal dications M2+(H2O)2, M = Be, Mg, Ca, Sr, and Ba: salt-bridge mechanism in the proton-transfer reaction M2+(H2O)2 --> MOH+ + H3O. |
| Q45253231 | Zwitterion formation in gas-phase cyclodextrin complexes |
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