RecQ and RecG helicases have distinct roles in maintaining the stability of polypurine· polypyrimidine sequences
BP Dixon, L Lu, A Chu, JJ Bissler - Mutation Research/Fundamental and …, 2008 - Elsevier
DNA triplex structures can block the replication fork and result in double-stranded DNA
breaks (DSBs). RecQ and RecG helicases may be important for replication of such …
breaks (DSBs). RecQ and RecG helicases may be important for replication of such …
RecQ and RecG helicases have distinct roles in maintaining the stability of polypurine. polypyrimidine sequences.
BP Dixon, L Lu, A Chu, JJ Bissler - Mutation Research, 2008 - europepmc.org
DNA triplex structures can block the replication fork and result in double-stranded DNA
breaks (DSBs). RecQ and RecG helicases may be important for replication of such …
breaks (DSBs). RecQ and RecG helicases may be important for replication of such …
RecQ and RecG helicases have distinct roles in maintaining the stability of polypurine· polypyrimidine sequences
BP Dixon, L Lu, A Chu, JJ Bissler - Mutation Research-Fundamental and …, 2008 - infona.pl
DNA triplex structures can block the replication fork and result in double-stranded DNA
breaks (DSBs). RecQ and RecG helicases may be important for replication of such …
breaks (DSBs). RecQ and RecG helicases may be important for replication of such …
[HTML][HTML] RecQ and RecG Helicases Have Distinct Roles in Maintaining the Stability of Polypurine· Polypyrimidine Sequences
BP Dixon, L Lu, A Chu, JJ Bissler - Mutation research, 2008 - ncbi.nlm.nih.gov
DNA triplex structures can block the replication fork and result in double-stranded DNA
breaks (DSBs). RecQ and RecG helicases may be important for replication of such …
breaks (DSBs). RecQ and RecG helicases may be important for replication of such …
RecQ and RecG helicases have distinct roles in maintaining the stability of polypurine· polypyrimidine sequences
BP Dixon, L Lu, A Chu… - … Molecular Mechanisms of …, 2008 - ui.adsabs.harvard.edu
DNA triplex structures can block the replication fork and result in double-stranded DNA
breaks (DSBs). RecQ and RecG helicases may be important for replication of such …
breaks (DSBs). RecQ and RecG helicases may be important for replication of such …
RecQ and RecG helicases have distinct roles in maintaining the stability of polypurine center dot polypyrimidine sequences
BP Dixon, L Lu, A Chu, JJ Bissler - Mutation Research, 2008 - hero.epa.gov
DNA triplex structures can block the replication fork and result in double-stranded DNA
breaks (DSBs). RecQ and RecG helicases may be important for replication of such …
breaks (DSBs). RecQ and RecG helicases may be important for replication of such …
RecQ and RecG helicases have distinct roles in maintaining the stability of polypurine. polypyrimidine sequences
BP Dixon, L Lu, A Chu, JJ Bissler - Mutation research, 2008 - pubmed.ncbi.nlm.nih.gov
DNA triplex structures can block the replication fork and result in double-stranded DNA
breaks (DSBs). RecQ and RecG helicases may be important for replication of such …
breaks (DSBs). RecQ and RecG helicases may be important for replication of such …
RecQ and RecG helicases have distinct roles in maintaining the stability of polypurine. polypyrimidine sequences.
BP Dixon, L Lu, A Chu, JJ Bissler - Mutation Research, 2008 - europepmc.org
DNA triplex structures can block the replication fork and result in double-stranded DNA
breaks (DSBs). RecQ and RecG helicases may be important for replication of such …
breaks (DSBs). RecQ and RecG helicases may be important for replication of such …