Serge Smirnov, Tracy J. Matray, Eric T. Kool
DNA polymerases speci®cally insert the hydrophobic pyrene deoxynucleotide (P) opposite tetrahydrofuran (F), an stable abasic site analog, and DNA duplexes containing this non-hydrogenbonded pair...
Smirnov, Serge, Matray, Tracy J., Kool, Eric T., De Los Santos, Carlos
DNA polymerases specifically insert the hydrophobic pyrene deoxynucleotide (P) opposite tetrahydrofuran (F), an stable abasic site analog, and DNA duplexes containing this...
Integrity of duplex structures without hydrogen bonding: DNA with pyrene paired at abasic sites
Smirnov, Serge, Matray, Tracy J., Kool, Eric T., De Los Santos, Carlos
DNA polymerases specifically insert the hydrophobic pyrene deoxynucleotide (P) opposite tetrahydrofuran (F), an stable abasic site analog, and DNA duplexes containing this non-hydrogen-bonded pair...
The Genome of M. acetivorans Reveals Extensive Metabolic and Physiological Diversity
Galagan, James E., Nusbaum, Chad, Roy, Alice, Endrizzi, Matthew G., Macdonald, Pendexter, FitzHugh, Will, ...
Methanogenesis, the biological production of methane, plays a pivotal role in the global carbon cycle and contributes significantly to global warming. The majority of methane in nature is derived...
Integrity of duplex structures without hydrogen bonding: DNA with pyrene paired at abasic sites
Smirnov, Serge, Matray, Tracy J., Kool, Eric T., De Los Santos, Carlos
DNA polymerases specifically insert the hydrophobic pyrene deoxynucleotide (P) opposite tetrahydrofuran (F), an stable abasic site analog, and DNA duplexes containing this non-hydrogen-bonded pair...
The Genome of M. acetivorans Reveals Extensive Metabolic and Physiological Diversity
Galagan, James E., Nusbaum, Chad, Roy, Alice, Endrizzi, Matthew G., Macdonald, Pendexter, FitzHugh, Will, ...
Methanogenesis, the biological production of methane, plays a pivotal role in the global carbon cycle and contributes significantly to global warming. The majority of methane in nature is derived...