Add to ORKGDNA polymerase binds to the double stranded DNA and extends the primer strand by adding deoxyribonucletide to the 3’-end. Several reactions in the polymerase active site have been reported by Kornberg in addition to the polymerization. We observed DNA polymerase I can act as a pyrophosphatase and hydrolyze deoxyribonucletide. In performing the pyrophosphatase activity, DNA polymerase I requires to interact with RNA. RNA in general, was found to activate the DNA polymerase I as pyrophosphatase. This hydrolysis causes depletion of dNTP and inhibits DNA polymeration synthesis in vitro. In this RNA-dependent catalysis, DNA polymerase I catalyzes only dNTP but not rNTP. We have also observed that many other DNA polymerases have this type of the ...
AbstractTo link conformational transitions noted for DNA polymerases with kinetic results describing...
DNA polymerases can misinsert ribonucleotides that lead to genomic instability. DNA polymerase β dis...
A single copy of bacteriophage T7 DNA polymerase and DNA helicase advance the replication fork with ...
DNA polymerase binds to the double stranded DNA and extends the primer strand by adding deoxyribonuc...
DNA polymerases are involved in all DNA synthesis events occurring in nature. Therefore, these enzym...
The enzymatic polymerization of DNA and RNA is the basis for genetic inheritance for all living orga...
SummaryDNA polymerases must quickly and accurately distinguish between similar nucleic acids to form...
This report describes the use of several isosteric non-natural nucleotides as probes to evaluate the...
DNA polymerases are known to be responsible for the replication and maintenance of an organism’s gen...
AbstractThe interaction of deoxyribonucleoside-5'-mono-, di- and triphosphates with E. coli DNA poly...
AbstractThe development of novel artificial nucleobases and detailed X-ray crystal structures for pr...
SummaryDNA polymerases occasionally insert the wrong nucleotide. For this error to become a mutation...
AbstractThe 3',5'-exonuclease center of the Klenow fragment of E. coli DNA polymerase I (FK) was sel...
DNA polymerase I from Rhodothermus marinus is a high-fidelity DNA polymerase capable of operating at...
SummaryDNA polymerase (pol) β is a model polymerase involved in gap-filling DNA synthesis utilizing ...
AbstractTo link conformational transitions noted for DNA polymerases with kinetic results describing...
DNA polymerases can misinsert ribonucleotides that lead to genomic instability. DNA polymerase β dis...
A single copy of bacteriophage T7 DNA polymerase and DNA helicase advance the replication fork with ...
DNA polymerase binds to the double stranded DNA and extends the primer strand by adding deoxyribonuc...
DNA polymerases are involved in all DNA synthesis events occurring in nature. Therefore, these enzym...
The enzymatic polymerization of DNA and RNA is the basis for genetic inheritance for all living orga...
SummaryDNA polymerases must quickly and accurately distinguish between similar nucleic acids to form...
This report describes the use of several isosteric non-natural nucleotides as probes to evaluate the...
DNA polymerases are known to be responsible for the replication and maintenance of an organism’s gen...
AbstractThe interaction of deoxyribonucleoside-5'-mono-, di- and triphosphates with E. coli DNA poly...
AbstractThe development of novel artificial nucleobases and detailed X-ray crystal structures for pr...
SummaryDNA polymerases occasionally insert the wrong nucleotide. For this error to become a mutation...
AbstractThe 3',5'-exonuclease center of the Klenow fragment of E. coli DNA polymerase I (FK) was sel...
DNA polymerase I from Rhodothermus marinus is a high-fidelity DNA polymerase capable of operating at...
SummaryDNA polymerase (pol) β is a model polymerase involved in gap-filling DNA synthesis utilizing ...
AbstractTo link conformational transitions noted for DNA polymerases with kinetic results describing...
DNA polymerases can misinsert ribonucleotides that lead to genomic instability. DNA polymerase β dis...
A single copy of bacteriophage T7 DNA polymerase and DNA helicase advance the replication fork with ...