Add to ORKGType III restriction-modification (R-M) enzymes need to interact with two separate unmethylated DNA sequences in indirectly repeated, head-to-head orientations for efficient cleavage to occur at a defined location next to only one of the two sites. However, cleavage of sites that are not in head-to-head orientation have been observed to occur under certain reaction conditions in vitro. ATP hydrolysis is required for the long-distance communication between the sites prior to cleavage. Type III R-M enzymes comprise two subunits, Res and Mod that form a homodimeric Mod(2) and a heterotetrameric Res(2)Mod(2) complex. The Mod subunit in M-2 or R2M2 complex recognizes and methylates DNA while the Res subunit in R2M2 complex is responsible for ATP...
Many genetic processes require enzymes or enzyme complexes that interact simultaneously with distant...
Type I DNA restriction/modification (RM) enzymes are molecular machines found in the majority of bac...
The known nucleoside triphosphate-dependent restriction enzymes are hetero-oligomeric proteins that ...
Type III restriction-modification (R-M) enzymes need to interact with two separate unmethylated DNA ...
Restriction endonucleases interact with DNA at specific sites leading to cleavage of DNA. Bacterial ...
Restriction endonucleases interact with DNA at specific sites leading to cleavage of DNA. Bacterial ...
Type III restriction enzymes have been demonstrated to require two unmethylated asymmetric recogniti...
DNA cleavage by type III restriction endonucleases requires two inversely oriented asymmetric recogn...
EcoP1I and EcoP15I are members of type III restriction-modification enzymes. EcoPI and EcoP15I DNA m...
EcoP15I is a type III restriction enzyme that requires two recognition sites in a defined orientatio...
The Res subunits of the type III restriction-modification enzymes share a statistically significant ...
The phenomenon of restriction and modification (R-M) was first observed in the course of studies on ...
Type I restriction-modification (R-M) enzymes recognize specific sequences on foreign DNA invading t...
We demonstrate that, like other Type III restriction endonuclease, PstII does not turnover such that...
Many genetic processes require enzymes or enzyme complexes that interact simultaneously with distant...
Type I DNA restriction/modification (RM) enzymes are molecular machines found in the majority of bac...
The known nucleoside triphosphate-dependent restriction enzymes are hetero-oligomeric proteins that ...
Type III restriction-modification (R-M) enzymes need to interact with two separate unmethylated DNA ...
Restriction endonucleases interact with DNA at specific sites leading to cleavage of DNA. Bacterial ...
Restriction endonucleases interact with DNA at specific sites leading to cleavage of DNA. Bacterial ...
Type III restriction enzymes have been demonstrated to require two unmethylated asymmetric recogniti...
DNA cleavage by type III restriction endonucleases requires two inversely oriented asymmetric recogn...
EcoP1I and EcoP15I are members of type III restriction-modification enzymes. EcoPI and EcoP15I DNA m...
EcoP15I is a type III restriction enzyme that requires two recognition sites in a defined orientatio...
The Res subunits of the type III restriction-modification enzymes share a statistically significant ...
The phenomenon of restriction and modification (R-M) was first observed in the course of studies on ...
Type I restriction-modification (R-M) enzymes recognize specific sequences on foreign DNA invading t...
We demonstrate that, like other Type III restriction endonuclease, PstII does not turnover such that...
Many genetic processes require enzymes or enzyme complexes that interact simultaneously with distant...
Type I DNA restriction/modification (RM) enzymes are molecular machines found in the majority of bac...
The known nucleoside triphosphate-dependent restriction enzymes are hetero-oligomeric proteins that ...