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 well defined enzyme comples of approximately 5 X 10(6) daltons that contains phage and host cell components known to be required for the processes of phage transcription and DNA replication has been isolated from bacteriophage T5-infected Escherichia coli cells. In addition to the RNA polymerase of the host cell, the complex contains the phage-encoded: gpC2 which has been implicated genetically as a controlling element of late transcription; gpD9, the DNA polymerase required for T5 DNA replication; the proteins gpD5 (DNA-binding protein), and gpD15 (nuclease) which are both known to be essential for T5 DNA replication and for the initiation of late transcription. The viral gpD5 derived from the purified complex is a phosphoprotein. The enzyme complex also contains, protected from the action of nuclease, double-stranded DNA with an approximate molecular weight of 1 to 2 X 10(6) (2 to 3% of the size of the T5 genome) which is derived preferentially from the center of the T5 DNA molecule. The composition of the enzyme complex suggests that the processes of transcription and replication are integrated in T5-infected cells.
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PMID:Isolation and characterization of a putative bacteriophage T5 transcription.replication enzyme complex from infected Escherichia coli. 624 41

The origin of phage phi X174 progeny replicative form (RF) DNA synthesis has been inserted into the plasmid vector pBR322 and cloned. In direct contrast to pBR322, the recombinant superhelical plasmids can substitute for phi X174 RFI DNA as template in phi X174-specific reactions in vitro. We have shown that the recombinant plasmids: (i) are cleaved by the phi X174 A protein; (ii) support net synthesis of unit-length single-stranded circular DNA in the presence of the phi X174 A protein and Escherichia coli rep protein, DNA-binding protein, and DNA polymerase III elongation system; (iii) support replication of duplexes catalyzed by the phi X174 A protein and extracts of E. coli.
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PMID:In vitro DNA replication of recombinant plasmid DNAs containing the origin of progeny replicative form DNA synthesis of phage phi X174. 625 64

A DNA-binding protein, which migrated as one major protein band, with a molecular weight of 14,000, on sodium dodecylsulfate polyacrylamide gel, was purified from a culture medium of mouse thymus cells. The interaction of the isolated protein with DNA in vitro was assayed by a nitrocellulose filter binding technique. Equilibrium competition experiments demonstrated that the DNA-binding protein had the ability to differentiate among sequences of polynucleotides, indicating that the DNA-binding protein-DNA interaction was at least partially specific. This protein increased the helix melting temperature of DNA and inhibited the incorporation of [3H]dTMP into DNA by the DNA polymerase of calf thymus in vitro.
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PMID:Properties of a DNA-binding protein in a culture medium of thymus cells. 629 62

Eleven temperature-sensitive mutants of herpes simplex virus type 2 (HSV-2) exhibit overlapping patterns of complementation that define four functional groups. Recombination tests confirmed the assignment of mutants to complementation groups 1 through 4 and permitted the four groups to be ordered in an unambiguous linear array. Combined recombination and marker rescue tests (A. E. Spang, P. J. Godowski, and D. M. Knipe, J. Virol. 45:332-342, 1983) indicate that the mutations lie in a tight cluster near the center of UL to the left of the gene for DNA polymerase in the order 4-3-2-1-polymerase. The seven mutants that make up groups 1 and 2 fail to complement each other and mutants in HSV-1 complementation group 1-1, the group thought to define the structural gene for the major HSV-1 DNA-binding protein with a molecular weight of 130,000. At 38 degrees C, mutants in groups 1 and 2 synthesize little or no viral DNA, and unlike cells infected with the wild-type virus, mutant-infected cells exhibit no detectable nuclear antigen reactive with monoclonal or polypeptide-specific antibody to the major HSV-2 DNA-binding protein. The four mutants that make up groups 3 and 4 do not complement each other, nor do they complement mutants in group 2. They do, however, complement mutants in group 1 as well as representative mutants of HSV-1 complementation group 1-1. At 38 degrees C, mutants in groups 3 and 4 are phenotypically DNA+, and nuclei of mutant-infected cells contain the HSV-2 DNA-binding protein. Thus, the four functional groups appear to define two closely linked genes, one encoding an early viral function affecting both viral DNA synthesis and expression of the DNA-binding protein with a molecular weight of 130,000 (groups 1 and 2), and the other encoding a previously unidentified late viral function (groups 3 and 4). The former gene presumably represents the structural gene for the major HSV-2 DNA-binding protein.
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PMID:Genetic analysis of temperature-sensitive mutants which define the genes for the major herpes simplex virus type 2 DNA-binding protein and a new late function. 629 41

We have assigned eight temperature-sensitive mutants of herpes simplex virus type 1 to complementation group 1-1. Members of this group fail to complement mutants in herpes simplex virus type 2 complementation group 2-2. The mutation of one member of group 1-1, tsHA1 of strain mP, has been shown to map in or near the sequence which encodes the major herpes simplex virus type 1 DNA-binding protein (Conley et al., J. Virol. 37:191-206, 1981). The mutations of five other members of group 1-1 map in or near the sequence in which the tsHA1 mutation maps, a sequence which lies near the center of UL between the genes for the viral DNA polymerase and viral glycoprotein gAgB. These mutants can be divided into two groups; the mutations of one group map between coordinates 0.385 and 0.398, and the mutations of the other group map between coordinates 0.398 and 0.413. At the nonpermissive temperature mutants in group 1-1 are viral DNA negative, and mutant-infected cells fail to react with monoclonal antibody to the 130,000-dalton DNA-binding protein. Taken together, these data indicate that mutants in complementation groups 1-1 and 2-2 define the gene for the major herpes simplex virus DNA-binding protein, an early gene product required for viral DNA synthesis.
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PMID:Genetic analysis of temperature-sensitive mutants which define the gene for the major herpes simplex virus type 1 DNA-binding protein. 629 42

The herpes simplex virus type 2 major DNA-binding protein has been functionally characterized using temperature-sensitive mutants in the complementation group 2-2. The mutants were shown to be defective in the DNA-binding protein gene by mapping the mutants to the area of the genome known to code for the protein, and by demonstrating alterations in the major DNA-binding protein induced in mutant-infected cells. The mutants were shown to be defective in the replication of virus DNA. The nature of this defect was examined by studying virus DNA synthesis in vitro and by the examination of virus enzymes. An effect of mutation in the DNA-binding protein was to destabilize both the DNA polymerase and the alkaline exonuclease.
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PMID:Herpes simplex virus non-structural proteins. III. Function of the major DNA-binding protein. 630 16

The gene D5 product (gpD5) of bacteriophage T5 is a DNA-binding protein that binds preferentially to double-stranded DNA and is essential for T5 DNA replication, yet it inhibits DNA synthesis in vitro. Mechanisms of inhibition were studied by using nicked DNA and primed single-stranded DNA as a primer-template. Inhibition of T5 DNA polymerase activity by gpD5 occurred when double-stranded regions of DNA were saturated with gpD5. The 3' leads to 5' exonuclease associated with T5 DNA polymerase was not very active with nicked DNA, but inhibition of hydrolysis of substituents at 3'-hydroxyl termini by gpD5 could be observed. T5 DNA polymerase appears to be capable of binding to the 3' termini even when double-stranded regions are saturated with gpD5. The interaction of gpD5 with the polymerases at the primer terminus is apparently the primary cause of inhibition of polymerization.
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PMID:Interaction of a DNA-binding protein, the product of gene D5 of bacteriophage T5, with double-stranded DNA: effects on T5 DNA polymerase functions in vitro. 630 41

Sequence organization and origin of HSV-1 strain Angelotti (ANG) class II defective DNA (HSV-1 ANG dDNA1) were examined in detail by establishing physical maps and by molecular cloning. dDNA1 consists of concatemers of tandem repeat units in which sequences from the UL region spanning map coordinates 0.37 to 0.415 of standard HSV ANG DNA are covalently linked to TRS/IRS sequences. The size of the repeat unit was determined to be about 8.9 kilobase pairs (kb), comprising sequences of 7.3 kb from UL and 1.6 kb from TRS/IRS regions. UL sequences were delineated by restriction enzyme sites KpnI N-P and EcoRI F-M, and were colinear with the corresponding sequences of the standard (wild-type) virus genome. Expression of dDNA1 was studied in African green monkey kidney cells and in Xenopus laevis oocytes. A major polypeptide of approx. mol. wt. 135 000 (135K) was overproduced, suggesting that this protein was encoded by dDNA1. By several parameters, e.g. size, immune cross-reactivity, and affinity for native and denatured DNA, the 135K polypeptide was identified as the major HSV DNA-binding protein. It was further shown that the repeat unit contains part of the DNA polymerase gene as demonstrated by its ability to rescue some mutations in this gene.
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PMID:Herpes simplex virus defective genomes: structure of HSV-1 ANG defective DNA of class II and encoded polypeptides. 631 66

The most direct approach to elucidating the roles of herpes simplex virus (HSV) proteins in the viral replicative cycle has been to isolate temperature-sensitive, cytolysis-resistant, and drug-resistant mutants that exhibit alterations in the synthesis or activity of these proteins. The development of procedures for the introduction of temperature-sensitive mutations into physically defined regions of the viral genome and for fine mapping of these mutations has proven especially valuable. Thus, (1) hydroxylamine mutagenesis of the HSV-1 BglII I fragment (coordinates 0.312-0.415) has facilitated the genetic and functional characterization of the gene for the major viral DNA-binding protein of 130 K molecular weight; (2) the selection of a mutant conditionally able to render infected cells resistant to immune cytolysis has led to identification of an HSV gene involved in the processing of viral glycoproteins; and (3) the combined use of temperature-sensitive and drug-resistant mutants has led to a better definition of the physical limits and functional domains of the gene for HSV DNA polymerase.
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PMID:Genetics of herpes simplex virus. 633 Feb 20

We have studied the temporal and functional relationships between DNA replication and recombination in adenovirus-infected cells by using Southern blot hybridization to detect recombinant products among intracellular viral genomes. The data show that recombination can be detected soon after DNA replication has commenced and that the proportion of recombinant products increases thereafter. To determine the functional relationship between DNA replication and recombination, replication was blocked with the protein synthesis inhibitor anisomycin, the replication inhibitor cytosine arabinoside, and conditionally lethal mutations in either the virus-specified DNA-binding protein or the DNA polymerase. All treatments that directly or indirectly blocked DNA replication caused a delay in the appearance of recombinant products and a marked decline in their abundance relative to products of parental genotype. These data strongly suggest that DNA replication and recombination are interrelated, either because both processes share functions or because DNA structures produced by replication are suitable substrates for recombination. In addition, we have shown that some recombination function(s) is intrinsically thermolabile at 40.9 degrees C, even in wild-type crosses, since the appearance of recombinant products is delayed and their extent is reduced compared with that from crosses performed at 39.9 degrees C.
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PMID:Replication and recombination in adenovirus-infected cells are temporally and functionally related. 647 Nov 65


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