Shannon Yan scite author profile

The influence of vibrational excitation on chemical reaction dynamics is well understood in triatomic reactions, but the multiple modes in larger systems complicate efforts toward the validation of a predictive framework. Although recent experiments support selective vibrational enhancements of reactivities, such studies generally do not properly account for the differing amounts of total energy deposited by the excitation of different modes. By precise tuning of translational energies, we measured the relative efficiencies of vibration and translation in promoting the gas-phase reaction of CHD3 with the Cl atom to form HCl and CD3. Unexpectedly, we observed that C-H stretch excitation is no more effective than an equivalent amount of translational energy in raising the overall reaction efficiency; CD3 bend excitation is only slightly more effective. However, vibrational excitation does have a strong impact on product state and angular distributions, with C-H stretch-excited reactants leading to predominantly forward-scattered, vibrationally excited HCl.

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Ribosome Excursions during mRNA Translocation Mediate Broad Branching of Frameshift Pathways

Yan

Wen

Bustamante

et al. 2015

Cell

107

152

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Summary Programmed ribosomal frameshifting produces alternative proteins from a single transcript. -1-frameshifting occurs on Escherichia coli’s dnaX mRNA containing a slippery sequence AAAAAAG and peripheral mRNA structural barriers. Here we reveal hidden aspects of the frameshifting process, including its exact location on the mRNA and its timing within the translation cycle. Mass spectrometry of translated products shows that ribosomes enter the -1-frame from not one specific codon but various codons along the slippery sequence and slip by not just -1 but also -4, or +2-nucleotides. Single-ribosome translation trajectories detect distinctive codon-scale fluctuations in ribosome-mRNA displacement across the slippery sequence, representing multiple ribosomal translocation attempts during frameshifting. Flanking mRNA structural barriers mechanically stimulate the ribosome to undergo back-and-forth translocation excursions, broadly exploring reading frames. Both experiments reveal aborted translation around mutant slippery sequences, indicating that subsequent fidelity checks on newly adopted codon position base-pairings lead to either resumed translation or early termination.

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ATP-dependent force generation and membrane scission by ESCRT-III and Vps4

Schöneberg

Pavlin

Yan

et al. 2018

Science

165

141

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The ESCRTs catalyze reverse-topology scission from the inner face of membrane necks in HIV budding, multivesicular endosome biogenesis, cytokinesis, and other pathways. We encapsulated ESCRT-III subunits Snf7, Vps24, and Vps2, and the AAA+ ATPase Vps4 such that membrane nanotubes reflecting the correct topology of scission could be pulled from giant vesicles. Upon ATP release by photo-uncaging, this system was capable of generating forces within the nanotubes in a manner dependent upon Vps4 catalytic activity and Vps4 coupling to the ESCRT-III proteins. Imaging of scission revealed Snf7 and Vps4 puncta within nanotubes whose presence followed ATP release, correlated with force generation and nanotube constriction, and preceded scission. These observations directly verify long-standing predictions that ATP-hydrolyzing assemblies of ESCRT-III and Vps4 sever membranes.

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Shannon Yan

Do Vibrational Excitations of CHD ₃ Preferentially Promote Reactivity Toward the Chlorine Atom?

Ribosome Excursions during mRNA Translocation Mediate Broad Branching of Frameshift Pathways

ATP-dependent force generation and membrane scission by ESCRT-III and Vps4

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Shannon Yan

Do Vibrational Excitations of CHD 3 Preferentially Promote Reactivity Toward the Chlorine Atom?

Ribosome Excursions during mRNA Translocation Mediate Broad Branching of Frameshift Pathways

ATP-dependent force generation and membrane scission by ESCRT-III and Vps4

Contact Info

Product

Resources

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Do Vibrational Excitations of CHD ₃ Preferentially Promote Reactivity Toward the Chlorine Atom?