260 research outputs found
Calculations of the Relative Energies of the 2
Article on a proposed experimental test of the prediction of a triplet ground state for (CO)4
Action spectroscopy of gas-phase carboxylate anions by multiple photon IR electron detachment/attachment
We report on a form of gas-phase anion action spectroscopy based on infrared
multiple photon electron detachment and subsequent capture of the free
electrons by a neutral electron scavenger in a Fourier Transform Ion Cyclotron
Resonance (FTICR) mass spectrometer. This method allows one to obtain
background-free spectra of strongly bound anions, for which no dissociation
channels are observed. The first gas-phase spectra of acetate and propionate
are presented using SF6 as electron scavenger and a free electron laser as
source of intense and tunable infrared radiation. To validate the method, we
compare infrared spectra obtained through multiple photon electron
detachment/attachment and multiple photon dissociation for the benzoate anion.
In addition, different electron acceptors are used, comparing both associative
and dissociative electron capture. The relative energies of dissociation (by
CO2 loss) and electron detachment are investigated for all three anions by DFT
and CCSD(T) methods. DFT calculations are also employed to predict vibrational
frequencies, which provide a good fit to the infrared spectra observed. The
frequencies of the symmetric and antisymmetric carboxylate stretching modes for
the aliphatic carboxylates are compared to those previously observed in
condensed-phase IR spectra and to those reported for gas-phase benzoate,
showing a strong influence of the solution environment and a slight substituent
effect on the antisymmetric stretch.Comment: Revised version, Submitted to J Phys Chem
The acidity of uracil and uracil analogs in the gas phase: Four surprisingly acidic sites and biological implications
Fluorotrimethylsilane affinities of anionic nucleophiles: A study of fluoride-induced desilylation
The Biochemistry, Ultrastructure, and Subunit Assembly Mechanism of AMPA Receptors
The AMPA-type ionotropic glutamate receptors (AMPA-Rs) are tetrameric ligand-gated ion channels that play crucial roles in synaptic transmission and plasticity. Our knowledge about the ultrastructure and subunit assembly mechanisms of intact AMPA-Rs was very limited. However, the new studies using single particle EM and X-ray crystallography are revealing important insights. For example, the tetrameric crystal structure of the GluA2cryst construct provided the atomic view of the intact receptor. In addition, the single particle EM structures of the subunit assembly intermediates revealed the conformational requirement for the dimer-to-tetramer transition during the maturation of AMPA-Rs. These new data in the field provide new models and interpretations. In the brain, the native AMPA-R complexes contain auxiliary subunits that influence subunit assembly, gating, and trafficking of the AMPA-Rs. Understanding the mechanisms of the auxiliary subunits will become increasingly important to precisely describe the function of AMPA-Rs in the brain. The AMPA-R proteomics studies continuously reveal a previously unexpected degree of molecular heterogeneity of the complex. Because the AMPA-Rs are important drug targets for treating various neurological and psychiatric diseases, it is likely that these new native complexes will require detailed mechanistic analysis in the future. The current ultrastructural data on the receptors and the receptor-expressing stable cell lines that were developed during the course of these studies are useful resources for high throughput drug screening and further drug designing. Moreover, we are getting closer to understanding the precise mechanisms of AMPA-R-mediated synaptic plasticity
Reactions of an aromatic σ,σ-biradical with amino acids and dipeptides in the gas phase
Determination of the gas-phase acidity of methylthioacetic acid using the Cooks’ kinetic method
Through-Bond Interactions in the Diradical Intermediates Formed in the Rearrangements of Bicyclo[ n
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