Dissociative Transition State in Hepatitis Delta Virus Ribozyme Catalysis.

Benjamin Weissman,Şölen Ekesan,Michael E Harris,Joseph A Piccirilli,Shahbaz Gardezi,Hsuan-Chun Lin,Nan-Sheng Li,Timothy J Giese,Erika Mccarthy,Darrin M York

doi:10.1021/jacs.2c10079

Dissociative Transition State in Hepatitis Delta Virus Ribozyme Catalysis.

Benjamin Weissman, Şölen Ekesan + Show 8 more

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https://doi.org/10.1021/jacs.2c10079

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Journal: Journal of the American Chemical Society	Publication Date: Jan 27, 2023
Citations: 4

Affiliation: University of Chicago, Quantitative BioSciences, Rutgers, The State University of New Jersey, University of Florida

#Transition State #Distinct Transition States #Dissociative Transition State #Secondary Kinetic Isotope Effects #Primary Kinetic Isotope Effects #Secondary Isotope Effects #Small Ribozymes #Discrete Design #Discrete Site #Dissociative State

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Ribonucleases and small nucleolytic ribozymes are both able to catalyze RNA strand cleavage through 2'-O-transphosphorylation, provoking the question of whether protein and RNA enzymes facilitate mechanisms that pass through the same or distinct transition states. Here, we report the primary and secondary 18O kinetic isotope effects for hepatitis delta virus ribozyme catalysis that reveal a dissociative, metaphosphate-like transition state in stark contrast to the late, associative transition states observed for reactions catalyzed by specific base, Zn2+ ions, or ribonuclease A. This new information provides evidence for a discrete ribozyme active site design that modulates the RNA cleavage pathway to pass through an altered transition state.

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Dissociative Transition State in Hepatitis Delta Virus Ribozyme Catalysis.