L.N. Jackson scite author profile

Replicative DNA polymerases are highly efficient enzymes that maintain stringent geometric control over shape and orientation of the template and incoming nucleoside triphosphate. In a surprising twist to this paradigm, a naturally occurring bacterial DNA polymerase I member isolated from Geobacillus stearothermophilus (Bst) exhibits an innate ability to reverse transcribe RNA and other synthetic congeners (XNAs) into DNA. This observation raises the interesting question of how a replicative DNA polymerase is able to recognize templates of diverse chemical composition. Here, we present crystal structures of natural Bst DNA polymerase that capture the post-translocated product of DNA synthesis on templates composed entirely of 2′-deoxy-2′-fluoro-β-d-arabino nucleic acid (FANA) and α-l-threofuranosyl nucleic acid (TNA). Analysis of the enzyme active site reveals the importance of structural plasticity as a possible mechanism for XNA-dependent DNA synthesis and provides insights into the construction of variants with improved activity.

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High-resolution view of HIV-1 reverse transcriptase initiation complexes and inhibition by NNRTI drugs

Larsen

Zhang

et al. 2021

Nat Commun

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Reverse transcription of the HIV-1 viral RNA genome (vRNA) is an integral step in virus replication. Upon viral entry, HIV-1 reverse transcriptase (RT) initiates from a host tRNALys3 primer bound to the vRNA genome and is the target of key antivirals, such as non-nucleoside reverse transcriptase inhibitors (NNRTIs). Initiation proceeds slowly with discrete pausing events along the vRNA template. Despite prior medium-resolution structural characterization of reverse transcriptase initiation complexes (RTICs), higher-resolution structures of the RTIC are needed to understand the molecular mechanisms that underlie initiation. Here we report cryo-EM structures of the core RTIC, RTIC–nevirapine, and RTIC–efavirenz complexes at 2.8, 3.1, and 2.9 Å, respectively. In combination with biochemical studies, these data suggest a basis for rapid dissociation kinetics of RT from the vRNA–tRNALys3 initiation complex and reveal a specific structural mechanism of nucleic acid conformational stabilization during initiation. Finally, our results show that NNRTIs inhibit the RTIC and exacerbate discrete pausing during early reverse transcription.

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Crystal structures of DNA polymerase I capture novel intermediates in the DNA synthesis pathway

Chim

Jackson

Trinh

et al. 2018

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High resolution crystal structures of DNA polymerase intermediates are needed to study the mechanism of DNA synthesis in cells. Here we report five crystal structures of DNA polymerase I that capture new conformations for the polymerase translocation and nucleotide pre-insertion steps in the DNA synthesis pathway. We suggest that these new structures, along with previously solved structures, highlight the dynamic nature of the finger subdomain in the enzyme active site.

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Distinct Conformational States Underlie Pausing during Initiation of HIV-1 Reverse Transcription

Larsen

Choi

Jackson

et al. 2020

Journal of Molecular Biology

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Advances in understanding the initiation of HIV-1 reverse transcription

Krupkin

Jackson

et al. 2020

Current Opinion in Structural Biology

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L.N. Jackson

Crystal structures of a natural DNA polymerase that functions as an XNA reverse transcriptase

High-resolution view of HIV-1 reverse transcriptase initiation complexes and inhibition by NNRTI drugs

Crystal structures of DNA polymerase I capture novel intermediates in the DNA synthesis pathway

Distinct Conformational States Underlie Pausing during Initiation of HIV-1 Reverse Transcription

Advances in understanding the initiation of HIV-1 reverse transcription

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