西亚试剂：Global Conformational Dynamics of a Y-Family DNA Polymerase

发布时间：2025-05-06

Global Conformational Dynamics of a Y-Family DNA Polymerase during Catalysis

Cuiling Xu1, Brian A. Maxwell2, Jessica A. Brown1,3, Likui Zhang1, Zucai Suo1,2,3,4,5*

1 Department of Biochemistry, The Ohio State University, Columbus, Ohio, United States of America, 2 Ohio State Biophysics Program, The Ohio State University, Columbus, Ohio, United States of America, 3 Ohio State Biochemistry Program, The Ohio State University, Columbus, Ohio, United States of America, 4 Molecular, Cellular, and Developmental Biology Program, The Ohio State University, Columbus, Ohio, United States of America, 5 Comprehensive Cancer Center, The Ohio State University, Columbus, Ohio, United States of America

Replicative DNA polymerases are stalled by damaged DNA while the newly discovered Y-family DNA polymerases are recruited to rescue these stalled replication forks, thereby enhancing cell survival. The Y-family DNA polymerases, characterized by low fidelity and processivity, are able to bypass different classes of DNA lesions. A variety of kinetic and structural studies have established a minimal reaction pathway common to all DNA polymerases, although the conformational intermediates are not well defined. Furthermore, the identification of the rate-limiting step of nucleotide incorporation catalyzed by any DNA polymerase has been a matter of long debate. By monitoring time-dependent fluorescence resonance energy transfer (FRET) signal changes at multiple sites in each domain and DNA during catalysis, we present here a real-time picture of the global conformational transitions of a model Y-family enzyme: DNA polymerase IV (Dpo4) from Sulfolobus solfataricus. Our results provide evidence for a hypothetical DNA translocation event followed by a rapid protein conformational change prior to catalysis and a subsequent slow, post-chemistry protein conformational change. Surprisingly, the DNA translocation step was induced by the binding of a correct nucleotide. Moreover, we have determined the directions, rates, and activation energy barriers of the protein conformational transitions, which indicated that the four domains of Dpo4 moved in a synchronized manner. These results showed conclusively that a pre-chemistry conformational change associated with domain movements was too fast to be the rate-limiting step. Rather, the rearrangement of active site residues limited the rate of correct nucleotide incorporation. Collectively, the conformational dynamics of Dpo4 offer insights into how the inter-domain movements are related to enzymatic function and their concerted interactions with other proteins at the replication fork.

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