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Protein oxidation increases SAMHD1 binding ssDNA via its regulatory site

Nucleic Acids Res. 2023-07; 
Theresa L Simermeyer, Stephanie Batalis, LeAnn C Rogers, Owen J Zalesak, Thomas Hollis
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Proteins, Expression, Isolation and Analysis … All mutations to hSAMHD1 (C522A, 113–626aa and 113–626aa R451E) were synthesized and sequenced by GenScript using the pLM303-hSAMHD1 vector as a template. Expression … Get A Quote

摘要

SAMHD1 dNTP hydrolase activity places it at the crossroad of several important biological pathways, such as viral restriction, cell cycle regulation, and innate immunity. Recently, a dNTPase independent function for SAMHD1 in homologous recombination (HR) of DNA double-strand breaks has been identified. SAMHD1 function and activity is regulated by several post-translational modifications, including protein oxidation. Here, we showed that oxidation of SAMHD1 increases ssDNA binding affinity and occurs in a cell cycle-dependent manner during S phase consistent with a role in HR. We determined the structure of oxidized SAMHD1 in complex with ssDNA. The enzyme binds ssDNA at the regulatory sites at the dimer interf... More

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