Add to ORKGDNA topoisomerases have been evolved to solve the topological problems of DNA during replication, transcription, recombination and segregation. Discovery of several new enzymes and their characterization has necessitated this compilation. This analysis shows the distinct evolutionary relatedness of type II DNA topoisomerases. A striking feature is the absence of a contiguous stretch of about 160 amino acids in one of the subunits of prokaryotic type II enzymes, which might have important implications to their structure and function
Type II DNA topoisomerases (EC 5.99.1.3) are enzymes that catalyse topological changes in DNA in an ...
SummaryDNA topoisomerases resolve DNA topological problems created during transcription, replication...
Topoisomerases are essential molecular machines that manage physical challenges presented by DNA top...
DNA topoisomerases have been evolved to solve the topological problems of DNA during replication, tr...
enzymes implicated in key nuclear processes. The recent discovery of a novel kind of Topo II (DNA to...
Type II DNA topoisomerases (Topo II) are essential enzymes implicated in key nuclear processes. The ...
DNA strand scission and topology changes are catalyzed by DNA topoisomerases. Previous studies sugge...
International audienceTopoisomerases are essential enzymes that solve topological problems arising f...
International audienceThe control of DNA topology by DNA topoisomerases is essential for virtually a...
The DNA topoisomerases are essential for DNA replication, transcription, recombination, as well as f...
International audienceType II DNA topoisomerases are divided into two families, IIA and IIB. Types I...
Key processes in the cell, such as replication, transcription and repair, result in thesupercoiling ...
DNA topoisomerases are ubiquitous nuclear enzymes that govern the topological interconversions of DN...
Type II DNA topoisomerases (EC 5.99.1.3) are enzymes that catalyse topological changes in DNA in an ...
International audienceType II DNA topoisomerases of the family A (Topo IIAs) are present in all Bact...
Type II DNA topoisomerases (EC 5.99.1.3) are enzymes that catalyse topological changes in DNA in an ...
SummaryDNA topoisomerases resolve DNA topological problems created during transcription, replication...
Topoisomerases are essential molecular machines that manage physical challenges presented by DNA top...
DNA topoisomerases have been evolved to solve the topological problems of DNA during replication, tr...
enzymes implicated in key nuclear processes. The recent discovery of a novel kind of Topo II (DNA to...
Type II DNA topoisomerases (Topo II) are essential enzymes implicated in key nuclear processes. The ...
DNA strand scission and topology changes are catalyzed by DNA topoisomerases. Previous studies sugge...
International audienceTopoisomerases are essential enzymes that solve topological problems arising f...
International audienceThe control of DNA topology by DNA topoisomerases is essential for virtually a...
The DNA topoisomerases are essential for DNA replication, transcription, recombination, as well as f...
International audienceType II DNA topoisomerases are divided into two families, IIA and IIB. Types I...
Key processes in the cell, such as replication, transcription and repair, result in thesupercoiling ...
DNA topoisomerases are ubiquitous nuclear enzymes that govern the topological interconversions of DN...
Type II DNA topoisomerases (EC 5.99.1.3) are enzymes that catalyse topological changes in DNA in an ...
International audienceType II DNA topoisomerases of the family A (Topo IIAs) are present in all Bact...
Type II DNA topoisomerases (EC 5.99.1.3) are enzymes that catalyse topological changes in DNA in an ...
SummaryDNA topoisomerases resolve DNA topological problems created during transcription, replication...
Topoisomerases are essential molecular machines that manage physical challenges presented by DNA top...