Publication: Deep-sea vent phage DNA polymerase specifically initiates DNA synthesis in the absence of primers
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2017
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National Academy of Sciences
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Zhu, Bin, Longfei Wang, Hitoshi Mitsunobu, Xueling Lu, Alfredo J. Hernandez, Yukari Yoshida-Takashima, Takuro Nunoura, Stanley Tabor, and Charles C. Richardson. 2017. “Deep-Sea Vent Phage DNA Polymerase Specifically Initiates DNA Synthesis in the Absence of Primers.” Proceedings of the National Academy of Sciences 114 (12): E2310–18. https://doi.org/10.1073/pnas.1700280114.
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Abstract
A DNA polymerase is encoded by the deep-sea vent phage NrS-1. NrS-1 has a unique genome organization containing genes that are predicted to encode a helicase and a single-stranded DNA (ssDNA)binding protein. The gene for an unknown protein shares weak homology with the bifunctional primase-polymerases (prim-pols) from archaeal plasmids but is missing the zinc-binding domain typically found in primases. We show that this gene product has efficient DNA polymerase activity and is processive in DNA synthesis in the presence of the NrS-1 helicase and ssDNA-binding protein. Remarkably, this NrS-1 DNA polymerase initiates DNA synthesis from a specific template DNA sequence in the absence of any primer. The de novo DNA polymerase activity resides in the N-terminal domain of the protein, whereas the C-terminal domain enhances DNA binding.
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