Özet:
The DNA polymerase I genes of seven newly identified Geobacillus species within the family Bacillaceae, were cloned, sequenced and overexpressed in Escherichia coli. The polA gene of these species encodes DNA polymerase I of 878 amino acid residue protein with a predicted molecular weight of 99.3 kDa. Similarity analyses suggested that DNA polymerases belong to family A polymerases and lack 3'-5' exonuclease activity. The complete coding sequences of the genes were submitted into the GenBank. The recombinant (His)6-tagged DNA polymerases were purified by Ni2+-affinity chromatography and the homogeneous proteins were obtained after TEV protease digestion. DNA polymerases from Geobacillus anatolicus (Gana DNApolI) and Geobacillus kaue strain NB (Gkaue DNApolI) were further characterized in vitro and optimum conditions with respect to temperature, pH, monovalent and divalent ions were determined. Geobacillus DNA polymerase I fragment (GF DNApolI) was cloned and purified after homology modeling using Bacillus DNA polymerase I fragment (BF) as the model protein structure. The accuracy of GF DNApolI was measured by two M13 based fidelity assays which score errors produced during in vitro DNA synthesis of the lacZα complementation gene in M13mp2 DNA at 37°C, 50°C and 72°C. Base substitution errors increase three-fold when temperature is raised from 37°C to 72°C. DNA sequencing of the phage mutants showed that some of the base substitutions are more temperature sensitive than others. The most common base substitution error is the misincorporation of dGMP opposite to template G. Single nucleotide incorporations for both correct and for incorrect nucleotides were also studied under single-turnover conditions at 22°C, 37°C and 50°C. For both correct and incorrect dNTP insertions, the rate of polymerization, kpol, increased (seven- and four-fold, respectively) when temperature is raised from 22°C to 50°C, whereas only a slight change in Kd was observed. As a result, kinetic efficiency of the enzyme (kpol/Kd) shows five-fold increase over this temperature range.