Due to helical structure of DNA, massive amounts of positive supercoils are constantly introduced ahead of each replication fork. Positive supercoiling inhibits progression of replication forks but various mechanisms evolved that permit very efficient relaxation of that positive supercoiling. Some of these mechanisms lead to interesting topological situations where DNA supercoiling, catenation and knotting coexist and influence each other in DNA molecules being replicated. Here, we first review fundamental aspects of DNA supercoiling, catenation and knotting when these qualitatively different topological states do not coexist in the same circular DNA but also when they are present at the same time in replicating DNA molecules. We also revie...
Key DNA transactions, such as genome replication and transcription, rely on the speedy translocation...
Due to the helical structure of DNA the process of DNA replication is topologically complex. Freshly...
How type-2 topoisomerases discern global topology from local properties of DNA is not known precisel...
Due to helical structure of DNA, massive amounts of positive supercoils are constantly introduced ah...
17 p.-10 fig.Due to helical structure of DNA, massive amounts of positive supercoils are constantly ...
16 p.-3 fig.DNA topology changes dynamically during DNA replication. Supercoiling, precatenation, ca...
Freshly replicated DNA molecules initially form multiply interlinked right-handed catenanes. In bact...
The discrete regulation of supercoiling, catenation and knotting by DNA topoisomerases is well docum...
The discrete regulation of supercoiling, catenation and knotting by DNA topoisomerases is well docum...
Despite the fact that in living cells DNA molecules are long and highly crowded, they are rarely kno...
AbstractWe studied the structure of replication intermediates accumulated by Tus-induced arrest of p...
Entangling and twisting of cellular DNA (i.e., supercoiling) are problems inherent to the helical st...
7 p.-4 fig.The topology of DNA duplexes changes during replication and also after deproteinization i...
Using numerical simulations, we compare properties of knotted DNA molecules that are either torsiona...
Tesis Doctoral inédita leída en la Universidad Autónoma de Madrid, Facultad de Ciencias. Fecha de le...
Key DNA transactions, such as genome replication and transcription, rely on the speedy translocation...
Due to the helical structure of DNA the process of DNA replication is topologically complex. Freshly...
How type-2 topoisomerases discern global topology from local properties of DNA is not known precisel...
Due to helical structure of DNA, massive amounts of positive supercoils are constantly introduced ah...
17 p.-10 fig.Due to helical structure of DNA, massive amounts of positive supercoils are constantly ...
16 p.-3 fig.DNA topology changes dynamically during DNA replication. Supercoiling, precatenation, ca...
Freshly replicated DNA molecules initially form multiply interlinked right-handed catenanes. In bact...
The discrete regulation of supercoiling, catenation and knotting by DNA topoisomerases is well docum...
The discrete regulation of supercoiling, catenation and knotting by DNA topoisomerases is well docum...
Despite the fact that in living cells DNA molecules are long and highly crowded, they are rarely kno...
AbstractWe studied the structure of replication intermediates accumulated by Tus-induced arrest of p...
Entangling and twisting of cellular DNA (i.e., supercoiling) are problems inherent to the helical st...
7 p.-4 fig.The topology of DNA duplexes changes during replication and also after deproteinization i...
Using numerical simulations, we compare properties of knotted DNA molecules that are either torsiona...
Tesis Doctoral inédita leída en la Universidad Autónoma de Madrid, Facultad de Ciencias. Fecha de le...
Key DNA transactions, such as genome replication and transcription, rely on the speedy translocation...
Due to the helical structure of DNA the process of DNA replication is topologically complex. Freshly...
How type-2 topoisomerases discern global topology from local properties of DNA is not known precisel...