Abstract
Homogeneous DNA polymerase ("reverse transcriptase") from avian myeoblastosis virus was assayed for exodeoxyribonuclease activity. The substrates were defined template-initiator complexes in which different radioactive nucleotides were present at the 3'-OH termini of the initiator. Even when the number of molecules of enzyme was equal to the number of initiator termini there was no significant release of radioactivity with any of the template-initiator combinations tested. Under similar conditions, the nuclease activity associated with either Escherichia coli or T4DNA polymerases rendered more than 90% of the initiator termini acid-soluble. The ratio of exodeoxyribonuclease activity to protein with avian myeoblastosis DNA polymerase is less than 0.003% of that obtained with E. coli DNA polymerase I. Furthermore, avian myeloblastosis virus DNA polymerase failed to excise mispaired terminal nucleotides in both the presence and absence of polymerization.
Highlights
From avian myeloblastosis virus was assayed for exodeoxyribonuclease activity
Even when the number of molecules of enzyme was equal to the number of initiator termini, there was no significant release of radioactivity with any of the template-initiator combinations tested
We have examined avian myeloblastosis virus DNA polymerase for a proof-reading
Summary
From avian myeloblastosis virus was assayed for exodeoxyribonuclease activity. Initiator complexes in which different radioactive nucleotides were present at the 3’-OH termini of the initiator. Even when the number of molecules of enzyme was equal to the number of initiator termini, there was no significant release of radioactivity with any of the template-initiator combinations tested. Avian myeloblastosis virus DNA polymerase failed to excise mispaired terminal nucleotides in both the presence and absence of polymerization. Avian myeloblastosis virus DNA polymerase utilizes mispaired initiator termini when complexed to ribohomopolymer and deoxyribohomopolymer templates as functional sites for chain propagation. The ability of the enzyme to utilize the mismatched termini as starting points for polymerization has been unambiguously demonstrated by transfer of 32P from the newly synthesized product to the mispaired 3’-terminal nucleotide on the initiator
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