Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

A new type of plasmid expression vector was developed for direct expression of foreign genes in Escherichia coli. The plasmid vector, designated pTrS3, carries the E. coli tryptophan (trp) promoter and the Shine-Dalgarno (SD) sequence for the trp leader peptide as well as an ATG sequence located 13 bp downstream from the SD sequence. The dG residue of this ATG overlaps with the first dG residue of the single Sph I recognition sequence (GCATGC) of the vector DNA. After cleaving pTrS3 DNA by Sph I, the 3' protruding Sph I ends were converted into blunt ends using the Klenow fragment of E. coli DNA polymerase I. Subsequently, the DNA fragments coding for mature human interferon-beta or for the interferon lacking several aminoterminal amino acids, were ligated to this vector DNA and cloned in E. coli. Interferon activity was detected in the extracts of bacterial strains harboring the recombinant plasmids and the results indicated that the interferon-beta polypeptides without the five aminoterminal amino acids might be less active than the mature form.
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PMID:Construction and application of a novel plasmid "ATG vector" for direct expression of foreign genes in Escherichia coli. 631 98

A DNA containing the coding sequence for the proteinase inhibitor protein, eglin c, from the leech Hirudo medicinalis has been obtained by enzymatic assembly of chemically synthesized DNA fragments. The synthetic gene consists of a 232 base-pair fragment containing initiation and termination codon signals with restriction enzyme recognition sites conveniently placed for cloning into a plasmid vector. Only six oligonucleotides from 34 to 61 bases in length, sharing pairwise stretches of complementary regions at their 3'-termini, were prepared by phosphotriester solid-phase synthesis. The oligomers were annealed pairwise and converted into double stranded DNA fragments by DNA polymerase I mediated repair synthesis. The fragments were assembled by ligation, and the synthetic gene was expressed in high yield in E. coli under the transcriptional control of the E. coli tryptophan promoter. The expression product was purified to homogeneity and was shown to have similar physicochemical and identical biological properties as the authentic protein isolated from the leech.
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PMID:A large fragment approach to DNA synthesis: total synthesis of a gene for the protease inhibitor eglin c from the leech Hirudo medicinalis and its expression in E. coli. 638 68

Escherichia coli WP2 trpE65(ochre), when grown to stationary phase and plated on glucose salts medium, gave rise to slow growing tryptophan-independent mutants which formed increasing numbers of visible colonies from about day 6 onwards. These mutants were neither revertants at the ochre codon nor mutants at the tRNA suppressor loci normally found in this strain with logarithmic phase mutagenesis. The yield of mutants was not affected by the presence of the following alleles, umuC122, lexA102, polA1, recA1, recA56 or del(srlR-recA)306, except that in the three recA-defective strains, mutant colonies were initially slower to appear, possibly reflecting a lower viability in the inoculum. Stationary-phase spontaneous mutation in bacteria carrying on ochre mutation is thus a distinct and specific process that does not require the SOS system, or UvrA protein or DNA polymerase I. It may reflect the occurrence of a type of non-bulky DNA damage with altered base pairing specificity. In 3 out of 4 experiments with a strain carrying recA441 plus lexA51(Def) the rate of stationary-phase mutagenesis was elevated suggesting that there may be an additional component requiring an activated SOS system.
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PMID:Spontaneous mutation in stationary-phase Escherichia coli WP2 carrying various DNA repair alleles. 768 28

Genetic variation of the Bovine Leukemia Virus (BLV) appears to be limited in vitro and during the latent phase of the disease. However, cells in tumors often harbor deleted proviruses that are defective for expression. In order to gain insight into the involvement of viral genetic variation during pathogenesis, the BLV LTR and the env proviral sequences were analyzed in tumor tissues. A sheep (M230) was injected with the cloned BLV provirus 344 and became persistently infected with circulating lymphocytes reaching 345,000/mm3. After 11 months, this infected sheep developed leukemia-lymphoma. DNA was extracted from peripheral blood leukocytes at the time of tumor development and the LTR and the env gene were amplified, using the polymerase chain reaction procedure, cloned, and sequenced. Twenty independent LTR and twenty env clones were analyzed. It appeared that the in vivo mutation rate in the env gene was 0.043% (eight mutations including seven transitions out of 18,300 bp). Five point mutations (all transitions) were identified in the LTR, corresponding to 0.041% modifications (four mutations out of 9740 bp). These mutation rate values (0.043 and 0.041) were close to those due to the Taq DNA polymerase errors (0.030%). Altogether, these data demonstrate the lack of genetic variation in the LTR and the env gene during this case of BLV-induced pathogenesis in vivo. They confirm that the defectiveness of some BLV proviruses in vivo, thus, is not a mandatory step in the leukemogenic process.
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PMID:Lack of LTR and ENV genetic variation during bovine leukemia virus-induced leukemogenesis. 783 40

We have examined the biophysical properties of DNA polymerase beta (beta-pol) in solution. Time-resolved and steady-state fluorescence were used to investigate the microenvironment of the lone tryptophanyl residue (Trp324), and a combination of sedimentation equilibrium, sedimentation velocity and fluorescence anisotropy decay measurements were used to study the hydrodynamic properties of the enzyme. Trp324 appears to be exposed to water as judged by the tryptophan emission and steady-state and lifetime quenching experiments. The fluorescence is easily quenched by a neutral quencher acrylamide (kq = 1.59 x 10(9)M-1S-1), and by a negatively charged ionic quencher, I- (kq = 1.60 x 10(9) M-1S-1), but not by a positively charged ionic quencher, Cs+ (kq = 0.2 x 10(9) M-1S-1). The fluorescence lifetime of beta-pol is best described by the sum of two exponentials with a longer lifetime component of 8.4 ns and a shorter lifetime component of 1.3 ns. Decay associated spectra (DAS) show emission maxima at 340 nm and at 345 nm for the shorter lifetime and longer lifetime components, respectively, with corresponding centers of gravity at 347 nm and 348 nm. Sedimentation equilibrium experiments show that the enzyme exists as a monomer at the KCl concentrations (> 0.05 M) studied in the absence of divalent metals. Zn2+ causes higher order aggregation, but no such aggregates are seen with Mg2+ and Mn2+. In the presence of 1 mM manganese, the average lifetime decreased approximately 10%, from 8.14 ns to 7.38 ns, with a concomitant increase of average rotational correlational time (phi) from 24 ns to 28 ns. The accessibility of the positively charged quencher (Cs+) to tryptophan also decreases approximately 50%, indicating alteration of the tryptophan microenvironment. By contrast, Mg2+ causes minor changes in fluorescence properties. The hydrodynamic shape of the intact enzyme and its single-stranded (8 kDa) and double-stranded (31 kDa) DNA binding domains were further investigated by sedimentation velocity measurements. The value of S0(20),W for the intact enzyme is 2.97 S, and the calculated axial ratio is 5.0. In contrast to the 8 kDa domain, which has a less asymmetric shape with an axial ratio of 2.3, the 31 kDa domain shows an elongated structure with an axial ratio of 5.5. These data suggest that the axial ratio of the intact enzyme may be the result of marked bending of the molecule at the flexible hinge region between the two domains.
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PMID:Characterization of the tryptophan fluorescence and hydrodynamic properties of rat DNA polymerase beta. 796 32

The vaccinia virus genome encodes a DNA polymerase that is similar to other DNA polymerases. A mutation in the polymerase gene at a site that is adjacent to conserved residues allows viral replication in the presence of aphidicolin. Since wild-type virus is converted to aphidicolin-resistance by site-directed mutagenesis, it was feasible that active virus with substituted conserved residues could be detected by linking alterations to the aphidicolin-resistance mutation. Altered DNA, from a PCR, was introduced into virus by a marker transfer procedure. DNA from plaques of drug-resistant virus was amplified, and the product was sequenced to check for the conserved residue alteration. An alteration that introduced a Bg1I site was designed to facilitate the selection of drug-resistant virus containing substituted residues. One positive result was the replacement of two amino acids, tyrosine and alanine, by tryptophan and threonine. The failure to substitute aspartic acid for tyrosine indicates that drastic changes of the conserved sequence are not tolerated. Although the limitations associated with negative results apply, the method provides an in vivo assay for selecting a polymerase with conserved residue changes.
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PMID:A biological method for examining the effect of codon changes in a conserved region of DNA polymerase. 813 25

Escherichia coli thioredoxin contains two tryptophan residues (Trp28 and Trp31) situated close to the active site disulfide/dithiol. In order to probe the structural and functional roles of tryptophan in the mechanism of E. coli thioredoxin (Trx), we have replaced Trp28 with alanine using site-directed mutagenesis and expressed the mutant protein W28A in E. coli. Changes in the behavior of the mutant protein compared with the wild-type protein have been monitored by a number of physical and spectroscopic techniques and enzyme assays. As expected, removal of a tryptophan residue causes profound changes in the fluorescence spectrum of thioredoxin, particularly for the reduced protein (Trx-(SH)2), and to a lesser extent for the oxidized protein (Trx-S2). These results show that the major contribution to the strongly quenched fluorescence of Trx-S2 in both wild-type and mutant proteins is from Trp31, whereas the higher fluorescence quantum yield of Trx-(SH)2 in the wild-type protein is dominated by the emission from Trp28. The fluorescence, CD, and 1H NMR spectra are all indicative that the mutant protein is fully folded at pH 7 and room temperature, and, despite the significance of the change, from a tryptophan in close proximity to the active site to an alanine, the functions of the protein appear to be largely intact. W28A Trx-S2 is a good substrate for thioredoxin reductase, and W28A Trx-(SH)2 is as efficient as wild-type protein in reduction of insulin disulfides. DNA polymerase activity exhibited by the complex of phage T7 gene 5 protein and Trx-(SH)2 is affected only marginally by the W28A substitution, consistent with the buried position of Trp28 in the protein. However, the thermodynamic stability of the molecule appears to have been greatly reduced by the mutation: guanidine hydrochloride unfolds the protein at a significantly lower concentration for the mutant than for wild type, and the thermal stability is reduced by about 10 degrees C in each case. The stability of each form of the protein appears to be reduced by the same amount, an indication that the effect of the mutation is identical in both forms of the protein. Thus, despite its close proximity to the active site, the Trp28 residue of thioredoxin is not apparently essential to the electron transfer mechanism, but rather contributes to the stability of the protein fold in the active site region.
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PMID:Replacement of Trp28 in Escherichia coli thioredoxin by site-directed mutagenesis affects thermodynamic stability but not function. 862 6

N-[(Trimethylamine-boryl-carbonyl]-L-tryptophan methyl ester and N[(trimethylamine-boryl)-carbonyl]-L-histidine methyl ester were obtained by synthesis using triphenyl-phosphine/carbon tetrachloride or dicyclohexyl-carbodiimide as coupling agents, respectively. Both agents reduced L1210 lymphoid leukemia DNA, RNA, and protein syntheses with the largest reductions occurring in DNA synthesis. Reductions in DNA synthesis appear to be mediated by inhibition of key enzyme activities (i.e., DNA polymerase a, IMP dehydrogenase, and PRPP amido transferase). These agents had little effect on in vitro L1210 DNA topoisomerase II activity at 100 microM but were able to cause synergistic increases in protein-linked DNA breaks when combined with etoposide (VP16). It was shown that these agents significantly reduced protein kinase C mediated phosphorylation of human topoisomerase II in vitro. Thus, inhibition of topoisomerase II phosphorylation may be a mechanism by which these agents and VP-16 are synergistic in causing protein-linked DNA breaks.
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PMID:Synthesis and antitumor activity of boronated dipeptides containing aromatic amino acids. 941 63

Clamp proteins confer processivity to the DNA polymerase during DNA replication. These oligomeric proteins are loaded onto DNA by clamp loader protein complexes in an ATP-dependent manner. The mechanism by which the trimeric bacteriophage T4 clamp protein (the 45 protein) loads and dissociates from DNA was investigated as a function of its intersubunit protein-protein interactions. These interactions were continuously monitored using a fluorescence resonance energy transfer (FRET) based assay. A cysteine mutant of the 45 protein was constructed to facilitate site-specific incorporation of a fluorescent probe at the subunit interface. This site was chosen such that FRET was observed between the introduced fluorescent probe and a tryptophan residue located on the opposing subunit. By use of this fluorescently labeled 45 protein, it was possible to obtain an estimate of an apparent trimer dissociation constant from either a cooperative (0.08 +/- 0.04 microM2 at 25 degrees C) or a noncooperative (0.51 microM and 0.17 microM at 25 degrees C) model. Upon mixing the fluorescently labeled 45 protein with a 45 protein containing 4-fluorotryptophan, a nonfluorescent tryptophan analogue, subunit exchange between the two variants of the 45 protein was observed according to a reduction in intersubunit FRET. Subunit exchange rate constants measured in the presence or absence of the clamp loader (44/62 complex), the polymerase (43 protein), and/or a primer template DNA substrate demonstrate (a) that the 45 protein is not loaded onto DNA by subunit exchange and (b) that the disassembly dissociation of a stalled holoenzyme from DNA is dictated by 45 protein subunit dissociation.
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PMID:Clamp subunit dissociation dictates bacteriophage T4 DNA polymerase holoenzyme disassembly. 948 7

Retroviral vectors based on the Moloney murine leukemia virus (MoMuLV) are currently the most commonly used vehicles for stable gene transfer into mammalian hematopoietic cells. But, even with reasonable transduction efficiency, expression only occurs in a low percentage of transduced cells and decreases to undetectable levels over time. We have previously reported the modified MND LTR (myeloproliferative sarcoma virus enhancer, negative control region deleted, dl587rev primer-binding site substituted) to show increased expression frequency and decreased methylation in transduced murine embryonic stem cells and hematopoietic stem cells. We have now compared expression of the enhanced green fluorescent protein (eGFP) from a vector using the MoMuLV LTR (LeGFPSN) with that from the modified vector (MNDeGFPSN) in mature hematopoietic and lymphoid cells in the mouse bone marrow transplant (BMT) model. In primary BMT recipients, we observed a higher frequency of expression from the MND LTR (20% to 80%) in hematopoietic cells of all lineages in spleen, bone marrow, thymus, and blood compared with expression from the MoMuLV LTR (5% to 10%). Expression from the MND LTR reached 88% in thymic T lymphocytes and 54% in splenic B lymphocytes for up to 8 months after BMT. The mean fluorescence intensity of the individual cells, indicating the amount of protein synthesized, was 6- to 10-fold higher in cells expressing MNDeGFPSN compared with cells expressing LeGFPSN. Transduction efficiencies determined by DNA polymerase chain reaction of vector copy number were comparable for the 2 vectors. Therefore, the MND vector offers an improved vehicle for reliable gene expression in hematopoietic cells.
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PMID:Improved expression in hematopoietic and lymphoid cells in mice after transplantation of bone marrow transduced with a modified retroviral vector. 1055 44


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