Abstract
Type II topoisomerases, a family of enzymes that govern topological DNA interconversions, are essential to many cellular processes in eukaryotic organisms. Because no data are available about the functions of these enzymes in the replication of viruses that infect eukaryotic hosts, this led us to express and characterize the first topoisomerase II encoded by one of such viruses. Paramecium bursaria chlorella virus 1 (PBCV-1) infects certain chlorella-like green algae and encodes a 120-kDa protein with a similarity to type II topoisomerases. This protein was expressed in Saccharomyces cerevisiae and was highly active in relaxation of both negatively and positively supercoiled plasmid DNA, catenation of plasmid DNA, and decatenation of kinetoplast DNA networks. Its optimal activity was determined, and the omission of Mg(2+) or its replacement with other divalent cations abolished DNA relaxation. All activities of the recombinant enzyme were ATP dependent. Increasing salt concentrations shifted DNA relaxation from a normally processive mechanism to a distributive mode. Thus, even though the PBCV-1 enzyme is considerably smaller than other eukaryotic topoisomerase II enzymes (whose molecular masses are typically 160-180 kDa), it displays all the catalytic properties expected for a type II topoisomerase.
Highlights
Type II topoisomerases, a family of enzymes that govern topological DNA interconversions, are essential to many cellular processes in eukaryotic organisms
Even though the Paramecium bursaria chlorella virus 1 (PBCV-1) enzyme is considerably smaller than other eukaryotic topoisomerase II enzymes, it displays all the catalytic properties expected for a type II topoisomerase
Open reading frames (ORFs)1 with similarity to type II topoisomerases have been identified in only three viruses that infect eukaryotes, the Iridovirus Chilo iridescent virus [18], the unclassified African swine fever virus [19], and the Phycodnavirus Paramecium bursaria chlorella virus (PBCV-1) [20]
Summary
(Received for publication, October 29, 1999, and in revised form, December 6, 1999). Oleg V. Type II topoisomerases, a family of enzymes that govern topological DNA interconversions, are essential to many cellular processes in eukaryotic organisms. Because no data are available about the functions of these enzymes in the replication of viruses that infect eukaryotic hosts, this led us to express and characterize the first topoisomerase II encoded by one of such viruses. Paramecium bursaria chlorella virus 1 (PBCV-1) infects certain chlorella-like green algae and encodes a 120-kDa protein with a similarity to type II topoisomerases. This protein was expressed in Saccharomyces cerevisiae and was highly active in relaxation of both negatively and positively supercoiled plasmid DNA, catenation of plasmid DNA, and decatenation of kinetoplast DNA networks. Chlorella Virus Topoisomerase II acterized topoisomerase II encoded by a virus that infects a eukaryotic organism, the predicted 1,061 amino acid size of the PBCV-1 ORF is smaller than any other known topoisomerase II
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