Synthesis on single-stranded circular phage M13 DNA by DNA polymerase of nuclear silkworm polyhedrosis virus

Ataeva, D. O.; Marlyev, K. A.; Kullyev, P. K.; Mikhailov, V. S.

doi:10.7124/bc.000188

Biopolym. Cell. 1985; 1(5):234-241.

http://dx.doi.org/10.7124/bc.000188

Reviews

Synthesis on single-stranded circular phage M13 DNA by DNA polymerase of nuclear silkworm polyhedrosis virus

1Ataeva D. O., 1Marlyev K. A., 1Kullyev P. K., 2Mikhailov V. S.

Institute of Zoology, Academy of Sciences of the Turkmen SSR
Ashkhabad, USSR
N. K. Koltsov Institute of Developmental Biology, Academy of Sciences of the USSR
Moscow, USSR

Abstract

A virus-induced DNA polymerase (B. m. NPV polymerase) was purified from the silkworm Bombyx mori pupae infected with nuclear polyhedrosis virus (B. m. NPV). NPV polymerase is a polypeptide with a molecular weight of 136 kDa and a sedimentation coefficient of 6.3 S. As a template, B. m. NPV polymerase prefers polydeoxynucleotide poly(dA) with a primer (dT)io and is inactive when using poly(A). Partially purified B. m. NPV polymerase is active on the single-standed circular phage M13 DNA in the absence of a primer. The ability to utilize phage M13 DNA as a template is due to the presence of a Mg²⁺-dependent endonuclease specific to double-stranded DNA in the preparations of B. m. NPV polymerase. The endonuclease exists in the B. m. NPV polymerase preparations after ammonium sulphate fractionation, phosphocellulose and hydroxyapatite chromatography but may be separated from B. m. NPV polymerase by glycerol gradient ultracentrifugation in the presence of 200 rnM potassium phosphate. At the lower salt concentrations B. m. NPV polymerase and the endonuclease reveal a tendency to aggregation.

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