The discrete regulation of supercoiling, catenation and knotting by DNA topoisomerases is well documented both in vivo and in vitro, but the interplay between them is still poorly understood. Here we studied DNA catenanes of bacterial plasmids arising as a result of DNA replication in Escherichia coli cells whose topoisomerase IV activity was inhibited. We combined high-resolution two-dimensional agarose gel electrophoresis with numerical simulations in order to better understand the relationship between the negative supercoiling of DNA generated by DNA gyrase and the DNA interlinking resulting from replication of circular DNA molecules. We showed that in those replication intermediates formed in vivo, catenation and negative supercoiling c...
Bacterial DNA gyrase introduces negative supercoils into chromosomal DNA and relaxes positive superc...
16 p.-3 fig.DNA topology changes dynamically during DNA replication. Supercoiling, precatenation, ca...
Knots and supercoiling are both introduced in bacterial plasmids by catalytic processes involving DN...
The discrete regulation of supercoiling, catenation and knotting by DNA topoisomerases is well docum...
Freshly replicated DNA molecules initially form multiply interlinked right-handed catenanes. In bact...
17 p.-10 fig.Due to helical structure of DNA, massive amounts of positive supercoils are constantly ...
Chromosomal and plasmid DNA molecules in bacterial cells are maintained under torsional tension and ...
Due to helical structure of DNA, massive amounts of positive supercoils are constantly introduced ah...
DNA topoisomerases are the enzymes that regulate DNA topology in all living cells. Since the discove...
Despite the fact that in living cells DNA molecules are long and highly crowded, they are rarely kno...
Due to the helical structure of DNA the process of DNA replication is topologically complex. Freshly...
Due to the helical structure of DNA the process of DNA replication is topologically complex. Freshly...
The topology of DNA duplexes changes during replication and also after deproteinization in vitro. He...
Freshly replicated DNA molecules initially form multiply interlinked right-handed catenanes. In bact...
AbstractWe studied the structure of replication intermediates accumulated by Tus-induced arrest of p...
Bacterial DNA gyrase introduces negative supercoils into chromosomal DNA and relaxes positive superc...
16 p.-3 fig.DNA topology changes dynamically during DNA replication. Supercoiling, precatenation, ca...
Knots and supercoiling are both introduced in bacterial plasmids by catalytic processes involving DN...
The discrete regulation of supercoiling, catenation and knotting by DNA topoisomerases is well docum...
Freshly replicated DNA molecules initially form multiply interlinked right-handed catenanes. In bact...
17 p.-10 fig.Due to helical structure of DNA, massive amounts of positive supercoils are constantly ...
Chromosomal and plasmid DNA molecules in bacterial cells are maintained under torsional tension and ...
Due to helical structure of DNA, massive amounts of positive supercoils are constantly introduced ah...
DNA topoisomerases are the enzymes that regulate DNA topology in all living cells. Since the discove...
Despite the fact that in living cells DNA molecules are long and highly crowded, they are rarely kno...
Due to the helical structure of DNA the process of DNA replication is topologically complex. Freshly...
Due to the helical structure of DNA the process of DNA replication is topologically complex. Freshly...
The topology of DNA duplexes changes during replication and also after deproteinization in vitro. He...
Freshly replicated DNA molecules initially form multiply interlinked right-handed catenanes. In bact...
AbstractWe studied the structure of replication intermediates accumulated by Tus-induced arrest of p...
Bacterial DNA gyrase introduces negative supercoils into chromosomal DNA and relaxes positive superc...
16 p.-3 fig.DNA topology changes dynamically during DNA replication. Supercoiling, precatenation, ca...
Knots and supercoiling are both introduced in bacterial plasmids by catalytic processes involving DN...