Add to ORKGDNA replication is arguably the most important biological process associated with cancer progression. This is evident as the inhibition of DNA synthesis remains one of the key therapeutic strategies used to treat this disease. This chapter describes the biological process of DNA replication focusing primarily on the roles of DNA polymerases in cancer progression and chemotherapy. The function of human DNA polymerases in replication, repair, recombination, and translesion DNA synthesis (TLS) are discussed with a special emphasis on their biochemical, structural, and mechanistic features. The current arsenal of therapeutic agents used to inhibit DNA polymerase activity is described, paying particular attention to purine and pyrimidine nucleos...
The exact biological functions of individual DNA polymerases still await clarification, and therefor...
Abstract During cell division, replication of the genomic DNA is performed by high-fidelity DNA poly...
Anti-cancer agents exert therapeutic effects by damaging DNA. Unfortunately, DNA polymerases can eff...
DNA replication is arguably the most important biological process associated with cancer progression...
DNA replication is arguably the most important biological process associated with cancer progression...
DNA replication is arguably the most important biological process associated with cancer progression...
Inhibiting DNA synthesis is an important therapeutic strategy that is widely used to treat a number ...
Numerous pathological states, including cancer, autoimmune diseases, and viral/bacterial infections,...
Numerous pathological states, including cancer, autoimmune diseases, and viral/bacterial infections,...
Apart from surgical approaches, the treatment of cancer remains largely underpinned by radiotherapy ...
Apart from surgical approaches, the treatment of cancer remains largely underpinned by radiotherapy ...
The cellular genome is constantly subject to DNA damage caused by endogenous factors or exogenously ...
The cellular genome is constantly subject to DNA damage caused by endogenous factors or exogenously ...
DNA polymerases are essential for genome replication, DNA repair and translesion DNA synthesis (TLS)...
Maintenance of the information embedded in the genomic DNA sequence is essential for life. DNA polym...
The exact biological functions of individual DNA polymerases still await clarification, and therefor...
Abstract During cell division, replication of the genomic DNA is performed by high-fidelity DNA poly...
Anti-cancer agents exert therapeutic effects by damaging DNA. Unfortunately, DNA polymerases can eff...
DNA replication is arguably the most important biological process associated with cancer progression...
DNA replication is arguably the most important biological process associated with cancer progression...
DNA replication is arguably the most important biological process associated with cancer progression...
Inhibiting DNA synthesis is an important therapeutic strategy that is widely used to treat a number ...
Numerous pathological states, including cancer, autoimmune diseases, and viral/bacterial infections,...
Numerous pathological states, including cancer, autoimmune diseases, and viral/bacterial infections,...
Apart from surgical approaches, the treatment of cancer remains largely underpinned by radiotherapy ...
Apart from surgical approaches, the treatment of cancer remains largely underpinned by radiotherapy ...
The cellular genome is constantly subject to DNA damage caused by endogenous factors or exogenously ...
The cellular genome is constantly subject to DNA damage caused by endogenous factors or exogenously ...
DNA polymerases are essential for genome replication, DNA repair and translesion DNA synthesis (TLS)...
Maintenance of the information embedded in the genomic DNA sequence is essential for life. DNA polym...
The exact biological functions of individual DNA polymerases still await clarification, and therefor...
Abstract During cell division, replication of the genomic DNA is performed by high-fidelity DNA poly...
Anti-cancer agents exert therapeutic effects by damaging DNA. Unfortunately, DNA polymerases can eff...