The specific early inhibition of DNA synthesis in reovirus-infected cells suggests that the cell nucleus is a target for virus-induced damage. We have now examined the affinity of reovirus proteins for DNA, postulating that such affinity could provide a mechanism for the inhibition. Cytoplasmic and nuclear extracts of cells labeled with [35S] methionine from 6 to 8.5 h after infection at high multiplicity was subjected to chromatography on denatured DNA - cellulose columns. Fractions from both cytoplasm and nucleus eluted with 0.6 N NaCl contained a protein with the same electrophoretic mobility of polyacrylamide slab gels as the nonstructural (NS) reovirus protein of the sigma size class. The protein also exhibited affinity for native DNA - cellulose and denatured DNA - agarose. Electrophoretic analysis is tube gels of cell extracts labeled for 48 h before infection with [14C] leucine and from 6 to 8.5 h after infection with [3H] leucine showed increased 3H label in this protein indicating it is reovirus specific. Small amounts of mu proteins also had DNA affinity. Purified virus did not bind strongly to DNA, suggesting that the binding protein is not a structural protein of the sigma size class on the outer surface of the virus. Our results provide evidence that the sigma NS protein binds to DNA. This affinity could interfere with chromosome function in the infected cell.
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