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Publication Detail

Title: Human DNA polymerase η has reverse transcriptase activity in cellular environments.

Authors: Su, Yan; Ghodke, Pratibha P; Egli, Martin; Li, Lin; Wang, Yinsheng; Guengerich, F Peter

Published In J Biol Chem, (2019 04 12)

Abstract: Classical DNA and RNA polymerase (pol) enzymes have defined roles with their respective substrates, but several pols have been found to have multiple functions. We reported previously that purified human DNA pol η (hpol η) can incorporate both deoxyribonucleoside triphosphates (dNTPs) and ribonucleoside triphosphates (rNTPs) and can use both DNA and RNA as substrates. X-ray crystal structures revealed that two pol η residues, Phe-18 and Tyr-92, behave as steric gates to influence sugar selectivity. However, the physiological relevance of these phenomena has not been established. Here, we show that purified hpol η adds rNTPs to DNA primers at physiological rNTP concentrations and in the presence of competing dNTPs. When two rATPs were inserted opposite a cyclobutane pyrimidine dimer, the substrate was less efficiently cleaved by human RNase H2. Human XP-V fibroblast extracts, devoid of hpol η, could not add rNTPs to a DNA primer, but the expression of transfected hpol η in the cells restored this ability. XP-V cell extracts did not add dNTPs to DNA primers hybridized to RNA, but could when hpol η was expressed in the cells. HEK293T cell extracts could add dNTPs to DNA primers hybridized to RNA, but lost this ability if hpol η was deleted. Interestingly, a similar phenomenon was not observed when other translesion synthesis (TLS) DNA polymerases-hpol ι, κ, or ζ-were individually deleted. These results suggest that hpol η is one of the major reverse transcriptases involved in physiological processes in human cells.

PubMed ID: 30842261 Exiting the NIEHS site

MeSH Terms: Cell Line; Crystallography, X-Ray; DNA Primers/chemistry; DNA Replication*; DNA-Directed DNA Polymerase*/chemistry; DNA-Directed DNA Polymerase*/genetics; DNA-Directed DNA Polymerase*/metabolism; Humans; RNA-Directed DNA Polymerase*/chemistry; RNA-Directed DNA Polymerase*/genetics; RNA-Directed DNA Polymerase*/metabolism; Reverse Transcription*

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