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Query: EC:2.7.7.7 (
DNA polymerase
)
17,007
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Determination of the protonation state of titratable protein residues is of critical importance for the interpretation of active site chemistry, as well as for understanding the role of electrostatic interactions in protein folding and stability. However, protein titration studies are limited by the fact that, at extreme pH values, increasing fractions of unfolded or partially unfolded structures may be present. This problem is particularly acute for lysine residues which have high pK values. In the present study, we point out that the use of the 13C resonance of lysine C-5 as a reporter for titration of the epsilon-amino group is preferable to the use of C-6 due to the 5-fold greater titration shift, so that reasonable results can be obtained using a two parameter fit of data obtained over a more limited pH range. A new synthetic procedure for [5-13C]lysine is described, and the pK value for Lys72 in the lyase domain of
DNA polymerase beta
has been determined using the [5-13C]lysine-labeled enzyme. The results agree well with recent studies of the Pol lambda lyase domain, demonstrating that the pK value for this residue is not optimized for Schiff base chemistry (Gao et al., Biochemistry 2006, 45, 1785-1794). We also have re-evaluated data for the pK of Lys73 in the TEM-1
beta-lactamase
.
...
PMID:Determination of lysine pK values using [5-13C]lysine: application to the lyase domain of DNA Pol beta. 1678 52
Fidelity of DNA synthesis, catalyzed by DNA polymerases, is critical for the maintenance of the integrity of the genome. Mutant polymerases with elevated accuracy (antimutators) have been observed, but these mainly involve increased exonuclease proofreading or large decreases in polymerase activity. We have determined the tolerance of
DNA polymerase
for amino acid substitutions in the active site and in different segments of E. coli
DNA polymerase I
and have determined the effects of these substitutions on the fidelity of DNA synthesis. We established a
DNA polymerase I
mutant library, with random substitutions throughout the polymerase domain. This random library was first selected for activity. The essentiality of DNA polymerases and their sequence and structural conservation suggests that few amino acid substitutions would be tolerated. However, we report that two-thirds of single base substitutions were tolerated without loss of activity, and plasticity often occurs at evolutionarily conserved regions. We screened 408 members of the active library for alterations in fidelity of DNA synthesis in Escherichia coli expressing the mutant polymerases and carrying a second plasmid containing a
beta-lactamase
reporter. Mutation frequencies varied from 1/1000- to 1000-fold greater compared with wild type. Mutations that produced an antimutator phenotype were distributed throughout the polymerase domain, with 12% clustered in the M-helix. We confirmed that a single mutation in this segment results in increased base discrimination. Thus, this work identifies the M-helix as a determinant of fidelity and suggests that polymerases can tolerate many substitutions that alter fidelity without incurring major changes in activity.
...
PMID:Highly tolerated amino acid substitutions increase the fidelity of Escherichia coli DNA polymerase I. 1730 Oct 51
When a colloidal solution consisting of nanosized acicular material and bacterial cells is stimulated with sliding friction at the interface between the hydrogel and interface-forming material where the frictional coefficient increases rapidly, the nanosized acicular material accompanying the bacterial cells forms a penetration intermediate. This effect is known as the Yoshida effect in honor of its discoverer. Through the Yoshida effect, a novel property in which penetration intermediates incorporate exogenous plasmid DNA has been identified. This report proposes a possible mechanism for exogenous plasmid acquisition by penetration intermediates in the Yoshida effect. Escherichia coli cells, pUC18, and chrysotile were used as recipient cells, plasmid DNA, and nanosized acicular material, respectively. Even when repeatedly washing the mixture consisting of pUC18 and chrysotile, transformation efficiency by pUC18 was stable. Accordingly, pUC18 adsorbed onto chrysotile was introduced into recipient E. coli cells. At saturation, the amount of pUC18 adsorbed onto chrysotile was 0.8-1.2 microg/mg. To investigate whether pUC18 adsorbed on chrysotile is replicated by polymerase, polymerase chain reaction (PCR) was carried out with the chrysotile. Amplification of the
beta-lactamase
gene coded in pUC18, which was adsorbed onto chrysotile, was strongly inhibited. This suggests that DNA adsorbed onto chrysotile is not replicated in vivo. When we searched for substances to release pUC18 adsorbed onto chrysotile, we found that a 300-bp single- or double-stranded segment of DNA releases pUC18 from chrysotile. Competitive adsorption onto chrysotile between double-stranded DNA and pUC18 was then examined through the Yoshida effect. The 310- and 603-bp double-stranded nucleotides caused 50% competitive inhibition at the same molar ratio with pUC18. Hence, the adsorbed region of pUC18 is about 300 bp in length. As the culture period for recipient cells increases, transformation efficiency decreases while the expression levels of small RNA of 300-600 bp also decrease. These results suggest that pUC18 adsorbed onto chrysotile can be released by 300-bp small RNA, replicated by
DNA polymerase
, and transferred to daughter cells.
...
PMID:Plasmid DNA is released from nanosized acicular material surface by low molecular weight oligonucleotides: exogenous plasmid acquisition mechanism for penetration intermediates based on the Yoshida effect. 1870 95
We report on a simple method to rapidly generate very large libraries of genes encoding mutant proteins without the use of DNA amplification, and the application of this methodology in the construction of synthetic immunoglobulin variable heavy (V(H)) and light (V(kappa)) libraries. Four high quality, chemically synthesized polynucleotides (90-140 bases) were annealed and extended using T4
DNA polymerase
. Following electroporation, >10(9) transformants could be synthesized within 1 day. Fusion to
beta-lactamase
and selection on ampicillin resulted in 3.7 x 10(8) V(H) and 6.9 x 10(8) V(kappa) clones highly enriched for full-length, in-frame genes. High-throughput 454 DNA sequencing of >250,000 V(H) and V(kappa) genes from the pre- and post-selection libraries revealed that, in addition to the expected reduction in reading-frame shifts and stop codons, selection for functional expression also resulted in a statistical decrease in the cysteine content. Apart from these differences, there was a good agreement between the expected and actual diversity, indicating that neither oligonucleotide synthesis nor biological constrains due to protein synthesis of V(H)/V(kappa)-
beta-lactamase
fusions introduce biases in the amino acid composition of the randomized regions. This methodology can be employed for the rapid construction of highly diverse libraries with the near elimination of PCR errors in invariant regions.
...
PMID:Rapid construction and characterization of synthetic antibody libraries without DNA amplification. 2019 60
Here we present a method for joint amplification of genes of carbapenemases of molecular classes A, B, and D for hybridization analysis on DNA microarrays. Using new-generation
DNA polymerase
KAPA2G Fast (KAPA Biosystems, USA) together with optimization of the conditions for the multiplex PCR with 20 primer pairs allowed us to carry out joint amplification of full-length genes of seven different types of carbapenemases (KPC, VIM, IMP, SPM, SIM, GIM, and OXA) with simultaneous inclusion of biotin as a label. Yield of the labeled PCR product sufficient for further analysis by microarray hybridization was achieved 40 min after the start of the reaction. This reduced the total duration of DNA identification techniques, including sample preparation stage, to 4 h. The method for gene identification by DNA microarrays with the improved stage of amplification of specific carbapenemase genes was tested with clinical strains of gram-negative bacteria Pseudomonas aeruginosa, Acinetobacter baumannii, and Enterobacteriaceae spp. with different sensitivity towards carbapenems according to phenotyping tests. All clinical strains of A. baumannii resistant to carbapenems were found to have genes of OXA-type carbapenemases (subtypes OXA-51, OXA-23, OXA-40, and OXA-58), and clinical strains of P. aeruginosa resistant to carbapenems were found to possess the gene of VIM-type metallo-
beta-lactamase
(subtype VIM-2). When testing clinical strains sensitive to carbapenems, carbapenemase genes were not detected. Thus, the method of identifying carbapenemase genes on DNA microarrays is characterized by high accuracy and can be used in clinical microbiology laboratories for express diagnostics of resistance to carbapenems.
...
PMID:Multiplex PCR for joint amplification of carbapenemase genes of molecular classes A, B, and D. 2510 15
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