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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We determined the DNA sequences of regions essential for bacteriophage P4 integration. A 20 base-pair core sequence in both phage (P4attP) and host (P4attB) attachment regions contains the recombination site. In P4attP this sequence is flanked by five repeated sequences. A 1.3 x 10(3) base open reading frame codes for P4 integrase. Two possible promoters are upstream from P4int. One would be recognized by Escherichia coli RNA polymerase and may be repressed by integrase protein. The second would be recognized by RNA polymerase modified after infection by a P4 helper phage, P2. The P4attB core sequence is the 3' end of a leucine tRNA gene. Downstream from this tRNA in E. coli K-12 is a region homologous to P4int that may be part of a cryptic prophage.
J Mol Biol 1987 Aug 05
PMID:Integration of satellite bacteriophage P4 in Escherichia coli. DNA sequences of the phage and host regions involved in site-specific recombination. 311 56

A phylogenetic tree for different human immunodeficiency viruses type 1 (HIV1) and type 2 (HIV2), lentiviruses, and oncoviruses has been constructed by comparing the nucleotide sequences of the two regions of their pol genes that encode the reverse transcriptase and endonuclease/integrase. The analysis indicates that (1) different HIV1 strains form one cluster and their common ancestor diverged from the ancestor of HIV2, (2) the common ancestor of the HIV1 and HIV2 strains diverged from that of the lentivirus, and (3) the common ancestor of the lentivirus group and that of the oncoviruses diverged earlier than that. Divergence between the HIV1 and HIV2 strains seems to have occurred greater than 200 years ago, implying that AIDS has existed for a long time but went undetected. Furthermore, nonsynonymous changes are occurring uniformly through time, whereas synonymous changes are more variable among different lineages.
Mol Biol Evol 1988 May
PMID:Molecular evolution of the human immunodeficiency and related viruses. 338 28

We utilize a recently discovered, powerful method to classify the topological state of knots and catenanes. In this method, each such form is associated with a unique polynomial. These polynomials allow a rigorous determination of whether knotted or catenated DNA molecules that appear distinct actually are, and indicate the structure of related molecules. A tabulation is given of the polynomials for all possible stereoisomers of many of the knotted and catenated forms that are found in DNA. The polynomials for a substrate DNA molecule and the products obtained from it by either recombination or strand passage by a topoisomerase are related by a simple theorem. This theorem affords natural applications of the polynomial method to these processes. Examples are presented involving site-specific recombination by the transposon Tn3-encoded resolvase and the phage lambda integrase, in which product structure is predicted as a function of crossover mechanism.
J Mol Biol 1987 Oct 05
PMID:Description of the topological entanglement of DNA catenanes and knots by a powerful method involving strand passage and recombination. 344 Oct 12

The integration and attachment regions of bacteriophage P4 have been cloned into a multicopy plasmid. This plasmid can integrate into the E. coli chromosome at the same location as the parent phage. Integration increases the stability of the plasmid and allows it to be retained even under conditions in which a non-integrated plasmid would be lost. None of the genes needed for P4 lytic growth is required for integration. The P4 integration and attachment regions have been cloned on separate plasmids. A plasmid that carries the attachment site can integrate into the chromosome only if another plasmid that carries the P4 integration functions is present. A plasmid that carries only this trans-acting integration function cannot integrate. Using deletion mutants of the plasmid, the maximum size of the region needed for integration has been determined to be 1.6 kb, of which no more than 1.2 kb codes for the integrase protein. A nonsense mutant defective in integration has been isolated by using a rapid screening procedure that identifies unstable plasmids.
Mol Gen Genet 1984
PMID:Cloning of the integration and attachment regions of bacteriophage P4. 609 63

In vitro and in vitro transcription of the region of lambda phage DNA containing promoter Patt has been studied. Active transcription was observed in the vicinity of the att site and at the promoter Patt in vivo during the first minutes after infection. This transcription considerably decreases at the 1th minute, and stops completely at the 15th minute after infection. Maximum synthesis of integrase also takes place at the 15th minute after infection. In vitro the partially purified int protein (integrase) completely inhibited transcription from the promoter Patt. Hence, integrase is most probably a repressor of Patt in vivo and in vitro.
Mol Biol (Mosk)
PMID:[Integrase of lambda phage inhibits the activity of promotor Patt under in vivo and in vitro conditions]. 628 76

The lambda int gene product, integrase, recombines phage and bacterial DNA at a specific site during the integration step of lysogeny. Regulation of integrase synthesis is complex. (1) Transcription of the gene can occur from either of two promoters. lambda cII protein activates transcription initiation near int at pI. The lambda N protein allows transcription of int from pL. N protein acts by preventing transcription termination at several terminators between pL and int. (2) The expression of integrase is also subject to post-transcriptional regulation by a site, sib, which is located beyond int in the b region of lambda. Expression of int from pL is inhibited by sib, whereas that from pI is not. The negative control of int expression by sib is termed retroregulation. Retroregulation of int is caused, in part, by processing of the pL transcript at the sib site by RNase III of Escherichia coli. The exonuclease, Bal31, was used to generate a set of deletions to define the sib regulatory site. Both sib+ and sib- deletions were sequenced, and it was concluded from this and other work that a dyad symmetry present in the b region, 270 base-pairs from int, was necessary for retroregulation. The RNA structure of this segment is similar to other RNase III-sensitive sites found in E. coli and phage RNAs.
J Mol Biol 1983 May 15
PMID:Deletion analysis of the retroregulatory site for the lambda int gene. 630 22

Retroviruses are a family of widespread small animal viruses about 110 nm in diameter, composed of an inner core surrounded by an outer envelope formed of a lipid bilayer of cellular origin in which are anchored viral glycoproteins. The inner core is formed by an outer shell of capsid protein molecules (CA protein) surrounding the dimeric RNA genome in close association with about 2000 molecules of nucleocapsid protein (NC protein) and molecules of reverse transcriptase (RT) and integrase (IN). Conversion of the genomic single-stranded RNA into a double-stranded proviral DNA by RT takes place in the nucleocapsid substructure and involves two DNA strand transfers to generate the long terminal repeats (LTR) required for IN-mediated integration of the proviral DNA into the cellular genome and its expression. In this review we have summarized some of the properties and functions of the nucleocapsid protein of the most intensely studied oncoretroviruses (MuLV and ASLV) and lentiviruses (HIV-1). Recent biochemical and genetic data on retroviral NC proteins have shown that this small viral protein endowed with a strong affinity for nucleic acids exhibits nucleic acid annealing and strand transfer activities and is required for the formation of infectious viral particles. These new activities of NC protein are most probably necessary at the early steps of proviral DNA synthesis. The 3-D structures of HIV-1 and MoMuLV NC proteins, deduced from NMR studies, are characterized by a central globular domain with one (MoMuLV) or two (HIV-1) zinc fingers. This should facilitate a rational approach of new anti-HIV therapies based on inhibition of NC protein functions. Due to space limitations and the very abundant literature on retroviruses, references to articles prior to the publication of the second volume of RNA Tumor Viruses in 1985 (Weiss et al., 1985) will be minimal. We also direct the reader to an excellent review which summarizes recent insights into biochemical and structural aspects of the retroviral enzymes PR, RT and IN (Katz & Skalka, 1994).
J Mol Biol 1995 Dec 08
PMID:First glimpses at structure-function relationships of the nucleocapsid protein of retroviruses. 750 Mar 30

Mutations within the TYB gene of Ty1 encoding integrase (IN) as well as alterations in its substrate, a linear DNA molecule, were examined for their effects on in vitro IN activity, using a recently developed physical assay. Five different codon-insertion mutations, two frameshift mutations, and one missense mutation, previously identified as transposition-deficient mutations, were tested. Virus-like particles, the source of IN, from two different protease mutants and a reverse transcriptase mutant exhibited near-normal to normal IN activity. Two frameshift mutations mapping within the phylogenetically variable C-terminal domain of IN resulted in significant in vitro IN activity. In contrast, three mutations within the amino-terminal conserved domain of IN completely abolished IN activity. When the substrate termini were mutated, we found that substrates with as few as 4 bp of Ty1 termini were capable of efficiently generating integration products. Surprisingly, certain substrates that lacked obvious similarity to Ty1 termini were also readily integrated into both linear and circular targets, whereas others were not used as substrates at all. Termini rich in adenosine residues were among the more active substrates; however, certain substrates lacking terminal adenosine residues can form small quantities of integration products, including complete integration reactions.
Mol Cell Biol 1994 Sep
PMID:Ty1 in vitro integration: effects of mutations in cis and in trans. 752 May 25

Integration of the yeast retrotransposon Ty1 into the genome requires the self-encoded integrase (IN) protein and specific terminal nucleotides present on full-length Ty1 cDNA. Ty1 mutants with defects in IN, the conserved termini of Ty1 cDNA, or priming plus-strand DNA synthesis, however, were still able to efficiently insert into the genome when the elements were expressed from the GAL1 promoter present on a multicopy plasmid. As with normal transposition, formation of the exceptional insertions required an RNA intermediate, Ty1 reverse transcriptase, and Ty1 protease. In contrast to Ty1 transposition, at least 70% of the chromosomal insertions consisted of complex multimeric Ty1 elements. Ty1 cDNA was transferred to the inducing plasmid as well as to the genome, and transfer required the recombination and repair gene RAD52. Furthermore, multimeric insertions occurred without altering the levels of total Ty1 RNA, virus-like particle-associated RNA or cDNA, Ty1 capsid proteins, or IN. These results suggest that Ty1 cDNA is utilized much more efficiently for homologous recombination when IN-mediated integration is blocked.
Mol Cell Biol 1994 Oct
PMID:Efficient homologous recombination of Ty1 element cDNA when integration is blocked. 752 54

The FLP recombinase of the 2 microM plasmid of Saccharomyces cerevisiae belongs to the integrase family of recombinases whose members have in common four absolutely conserved residues (Arg-191, His-305, Arg-308, and Tyr-343). We have studied the mutant protein FLP R308K in which the arginine residue at position 308 has been replaced by lysine. Although FLP R308K was previously reported to be defective in ligation of certain substrates (Pan, G., Luetke, K., and Sadowski, P.D., Mol. Cell. Biol. 13, 3167-3175, 1993b), we show in this work that the protein is able to ligate those substrates that it can cleave (cleavage-dependent ligation activity). FLP R308K is defective in in vitro recombination and in strand exchange. It is able to carry out strand exchange at one of the two cleavage sites of the FLP recognition target site (FRT site), but is defective in strand exchange at the other cleavage site. These results are consistent with a model in which wild-type FLP initiates recombination only at one of the two cleavage sites. FLP R308K may be defective in the initiation of recombination.
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PMID:Cleavage-dependent ligation by the FLP recombinase. Characterization of a mutant FLP protein with an alteration in a catalytic amino acid. 755 44


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