Fellowships, Grants, & Awards
نویسندگان
چکیده
Vaccinia virus DNA polymerase catalyzes duplex-byduplex DNA joining reactions in vitro and many features of these recombination reactions are reprised in vivo. This can explain the intimate linkage between virus replication and genetic recombination. However, it is unclear why these apparently ordinary polymerases exhibit this unusual catalytic capacity. In this study, we have used different substrates to perform a detailed investigation of the mechanism of duplex-by-duplex recombination catalyzed by vaccinia DNA polymerase. When homologous, blunt-ended linear duplex substrates are incubated with vaccinia polymerase, in the presence of Mg and dNTPs, the appearance of joint molecules is preceded by the exposure of complementary singlestranded sequences by the proofreading exonuclease. These intermediates anneal to form a population of joint molecules containing hybrid regions flanked by nicks, 1–5 nt gaps, and/or short overhangs. The products are relatively resistant to exonuclease (and polymerase) activity and thus accumulate in joining reactions. Surface plasmon resonance (SPR) measurements showed the enzyme has a relative binding affinity favoring blunt-ended duplexes over molecules bearing 30-recessed gaps. Recombinant duplexes are the least favored ligands. These data suggest that a particular combination of otherwise ordinary enzymatic and DNA-binding properties, enable poxvirus DNA polymerases to promote duplex
منابع مشابه
Productivity outcomes for recent grants and fellowships awarded by the American Osteopathic Association Bureau of Research.
The objective of the present study was to evaluate productivity outcome measures for recent research grants and fellowships awarded through the American Osteopathic Association (AOA) Bureau of Research. Recipients of grants and fellowships that were awarded between 1995 and 2001 were contacted by mail, e-mail, or telephone and asked to provide information about publications, resulting grant awa...
متن کامل