The DNA sequence specificity of stimulation of DNA polymerases by factor D.
The Journal of biological chemistry (1987), Volume 262, Page 8868
Abstract:
The mechanism of enhancement of DNA polymerase activity by the murine DNA-binding protein factor D was investigated. Extension by Escherichia coli DNA polymerase I and calf thymus DNA polymerase-alpha of 5'-32P-labeled oligodeoxynucleotide primers that are complementary to poly(dT) or to bacteriophage M13 DNA was measured in the absence or presence of factor D. With 5'-[32P](dA)9.poly(dT), factor D enables E. coli polymerase I to fill approximately 15-nucleotide gaps between adjacent primers; whereas in the absence of the stimulatory protein, poly(dT) is not copied significantly. In order to study the nucleotide specificity of synthesis enhancement, we used M13mp10 DNA containing 4 consecutive thymidine residues downstream from the 3-hydroxyl terminus of an oligonucleotide primer. Upon addition of factor D, both polymerase I and polymerase-alpha can traverse this sequence more efficiently and thus generate longer DNA products. Densitometric analysis of nonextended and elongated 5'-32P-labeled M13 primer indicates that, without changing the frequency of primer utilization, factor D enhances the activity of these DNA polymerases by increasing their apparent processivity. By positioning oligonucleotide primers 4, 8, and 12 bases upstream from the (dT)4 template sequence, we show that the enhancement of synthesis by factor D is independent of the position of the oligothymidine cluster. We hypothesize that factor D interacts with oligo(dT).oligo(dA) domains in DNA to alter their conformation, which may normally obstruct the progression of DNA polymerases.
Polymerases:
Topics:
Status:
new | topics/pols set | partial results | complete | validated |
Results:
No results available for this paper.