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Query: UNIPROT:P06889 (Mol)
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The temperate lactococcal bacteriophage r1t was isolated from its lysogenic host and its genome was subjected to nucleotide sequence analysis. The linear r1t genome is composed of 33,350 bp and was shown to possess 3' staggered cohesive ends. Fifty open reading frames (ORFs) were identified which are, probably, organized in a life-cycle-specific manner. Nucleotide sequence comparisons, N-terminal amino acid sequencing and functional analyses enabled the assignment of possible functions to a number of DNA sequences and ORFs. In this way, ORFs specifying regulatory proteins, proteins involved in DNA replication, structural proteins, a holin, a lysin, an integrase, and a dUTPase were putatively identified. One ORF seems to be contained within a self-splicing group I intron. In addition, the bacteriophage att site required for site-specific integration into the host chromosome was determined.
Mol Microbiol 1996 Mar
PMID:Sequence analysis and molecular characterization of the temperate lactococcal bacteriophage r1t. 873 Aug 75

The Flp site-specific recombinase is encoded by the 2 micrometers plasmid Saccharomyces cerevisiae and is a member of the integrase family of recombinases. Like all members of the integrase family studied, Flp mediates recombination in two steps. First, a pair of strand exchanges creates a Holliday-like intermediate; second, this intermediate is resolved to recombinant products by a second pair of strand exchanges. Evidence derived from experiments using linear substrates indicates that Flp's active site is composed of two Flp protomers. One binds to the Flp recognition target site (FRT site) and activates the scissile phosphodiester bond for cleavage. Another molecule of Flp bound elsewhere in the synaptic complex (in trans) donates the nucleophilic tyrosine that executes cleavage and thereby becomes covalently attached to the 3' phosphoryl group at the cleavage site. It has previously been shown that Flp efficiently resolves synthetic, Holliday-like (chi) structures to linear products. In this paper, we examined whether resolution of chi structures by Flp also occurs via the trans cleavage mechanism. We used in vitro complementation studies of mutant Flp proteins as well as nicked chi structures to show that Flp resolves chi structures by trans cleavage. We propose a model for Flp-mediated recombination that incorporates trans cleavage at both the initial and resolution steps of strand exchange.
Mol Microbiol 1995 Nov
PMID:The Flp recombinase cleaves Holliday junctions in trans. 874 29

The integrase encoded by the temperate phage HP1 promotes the site-specific recombination between DNA sites on its genome (the attP site) and on the genome of the host Haemophilus influenzae (the attB site). The protein has been overproduced in Escherichia coli, and purified to apparent homogeneity. HP1 integrase promotes recombination of supercoiled attP-containing molecules with linear segments with attB sites. Reaction was enhanced by spermidine and by the bacterial DNA-bending protein integration host factor. The rate of recombination showed complex and related dependence upon the integrase concentration and the concentration of the supercoiled attP substrate. These relationships probably originate from the need to assemble a multi-protein complex on the attP DNA. The reaction promoted by HP1 integrase produced a four-stranded initial reaction product in which one pair of DNA strands had undergone transfer while the other pair remained intact. This four-stranded component was produced more rapidly than any product, and its steady-state level was proportional to the overall rate of reaction. This component had the kinetic and structural properties of an intermediate in the recombination reaction. The existence of this intermediate was used to determine that the two strand exchanges required for recombination of the duplex substrates proceed in a defined order.
Mol Microbiol 1996 Jul
PMID:Purification and characterization of the integrase from the Haemophilus influenzae bacteriophage HP1; identification of a four-stranded intermediate and the order of strand exchange. 884 41

Integration of a cDNA copy of the human immunodeficiency virus (HIV) genome is mediated by an HIV-1-encoded enzyme, integrase (IN), and is required for productive infection of CD4+ lymphocytes. It had been shown that 3,5-dicaffeoylquinic acid and two analogues were potent and selective inhibitors of HIV-1 IN in vitro. To determine whether the inhibition of IN by dicaffeoylquinic acids was limited to the 3,5 substitution, 3,4-, 4,5-, and 1,5-dicaffeoylquinic acids were tested for inhibition of HIV-1 replication in tissue culture and inhibition of HIV-1 IN in vitro. All of the dicaffeoylquinic acids were found to inhibit HIV-1 replication at concentrations ranging from 1 to 6 microM in T cell lines, whereas their toxic concentrations in the same cell lines were > 120 microM. In addition, the compounds inhibited HIV-1 IN in vitro at submicromolar concentrations. Molecular modeling of these ligands with the core catalytic domain of IN indicated an energetically favorable reaction, with the most potent inhibitors filling a groove within the predicted catalytic site of IN. The calculated change in internal free energy of the ligand/IN complex correlated with the ability of the compounds to inhibit HIV-1 IN in vitro. These results indicate that the dicaffeoylquinic acids as a class are potent and selective inhibitors of HIV-1 IN and form important lead compounds for HIV drug discovery.
Mol Pharmacol 1996 Oct
PMID:Dicaffeoylquinic acid inhibitors of human immunodeficiency virus integrase: inhibition of the core catalytic domain of human immunodeficiency virus integrase. 886 29

A new superfamily of transposons from fungi, nematodes, and flies related to the pogo element of Drosophila melanogaster was recognized that represents a branch of the extended superfamily of transposase and integrase proteins sharing a common D.D35E catalytic domain. Searches of human sequences in the public databases for similarity to this domain revealed at least two members of this new superfamily, with many highly mutated copies, in the human genome. A full-length consensus was constructed for one of them, which includes the MER37 medium reiteration frequency sequence recognized previously, from 343 human sequence accessions (261 of which are unique). Most of these were Expressed Sequence Tags, some were Sequence-Tagged Sites, and a few are from long genomic sequences. The 2417 bp consensus has the hallmarks of a pogo superfamily transposon, including 12 bp inverted terminal repeats, and encodes two long open reading frames. The first ORF encodes a polypeptide with 42% amino acid sequence identity to pogo in the D.D35E region. The second element shows 49% amino acid sequence identity with the first, and 40% with pogo in this region. These elements coincide with those described recently as Tigger1 and Tigger2, respectively. These transposons appear to have been active 80-90 Myr ago in the genome of an early primate or primate ancestor.
Mol Gen Genet 1996 Oct 28
PMID:Members of the pogo superfamily of DNA-mediated transposons in the human genome. 891 22

Like retroviruses, the yeast retrotransposon Ty1 produces its proteins as precursors that are subsequently cleaved by a protease encoded by the element. These cleavage events are essential for transposition as they release the active reverse transcriptase and integrase and they modify the structure of the virus-like particles in a way that is analogous to the morphological changes that occur during retrovirus core maturation. Using a combination of epitope tagging, amino acid analysis and mutagenesis, we have identified the major cleavage sites for the Ty1 protease within the particle-forming protein, p1, at 407S/408N. In addition, we present evidence indicating that the Ty1 protease may be a 17 kDa protein.
Mol Microbiol 1996 Dec
PMID:Identification of proteolytic cleavage sites within the gag-analogue protein of Ty1 virus-like particles. 897 23

We solved the structure and traced the complete active site of the catalytic domain of the human immunodeficiency virus type 1 integrase (HIV-1 IN) with the F185H mutation. The only previously available crystal structure, the F185K mutant of this domain, lacks one of the catalytically important residues, E152, located in a stretch of 12 disordered residues [Dyda et al. (1994) Science 266, 1981-1986]. It is clear, however, that the active site of HIV-1 IN observed in either structure cannot correspond to that of the functional enzyme, since the cluster of three conserved carboxylic acids does not create a proper metal-binding site. The conformation of the loop was compared with two different conformations found in the catalytic domain of the related avian sarcoma virus integrase [Bujacz et al. (1995) J. Mol. Biol. 253, 333-346]. Flexibility of the active site region of integrases may be required in order for the enzyme to assume a functional conformation in the presence of substrate and/or cofactors.
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PMID:The catalytic domain of human immunodeficiency virus integrase: ordered active site in the F185H mutant. 897 1

In Xer site-specific recombination two related recombinases, XerC and XerD, catalyse strand cleavage and rejoining reactions at a site, dif, in order to ensure normal chromosome segregation during cell division in Escherichia coli. We have used nicked suicide substrates to trap reaction intermediates and show that XerC cleaves the top strand efficiently while XerD is less efficient at cleaving the bottom strand of dif. Recombinase-mediated cleavage positions are separated by six base pairs and occur at either end of the dif central region adjacent to the recombinase binding sites. XerC can cleave the top strand of dif inefficiently in the absence of its partner recombinase during a reaction that does not require intermolecular synapsis. The presence of a nick in the bottom strand of dif allows cooperative interactions between two XerC protomers bound to adjacent binding sites, suggesting that a conserved interaction domain is present in both XerC and XerD. Cooperativity between two identical recombinase protomers does not occur on un-nicked linear DNA. Ethylation interference footprinting of two XerD catalytic mutant proteins suggests that the conserved domain II arginine from the integrase family RHRY tetrad may make direct contact with the scissile phosphate.
J Mol Biol 1997 Jan 10
PMID:Binding and cleavage of nicked substrates by site-specific recombinases XerC and XerD. 899 22

During HIV-1 viral assembly, both Pr160gag-pol and primer tRNA(Lys3) are packaged into the virus. tRNA(Lys) packaging (both tRNA(Lys3) and tRNA(Lys1,2) is dependent upon the presence of RT sequences within Pr160gag-pol. In this work, we have monitored the effect of Pr160gag-pol mutations upon incorporation of tRNA(Lys3) and Pr160gag-pol into HIV-1 produced from COS-7 cells transfected with mutant HIV-1 proviral DNAs. Mutations include carboxy deletions of Pr160gag-pol and small amino acid insertions and replacements within the various functional domains of the reverse transcriptase (RT). tRNA(Lys3) incorporation was monitored both by 2D PAGE of viral RNA, and by hybridization with tRNA(Lys3)-specific DNA probes. Our data indicates: (1) deletion of integrase sequence has a moderate effect upon select tRNA(Lys3) packaging, while carboxy terminal deletions extending further into the RNase H and connection domains more strongly reduce viral tRNA(Lys3) content; (2) tRNA(Lys3) incorporation is strongly reduced by small inframe amino acid insertions or replacements in the carboxy region of the thumb domain and the amino half of the connection domain of RT, but tRNA(Lys3) incorporation is altered little, or not at all, by similar amino acid insertional mutations within other RT domains, such as the fingers, palm, RNase H, the amino portion of the thumb, and the carboxy region of the connection domain. The inability of connection domain mutant virus to incorporate tRNA(Lys3) and to properly process precursor proteins in the virus is due to the inability of mutant Pr160gag-pol to be incorporated into the virus. These mutant precursor proteins are maintained at levels in the cytoplasm similar to wild-type.
J Mol Biol 1997 Jan 31
PMID:Effects of mutations in Pr160gag-pol upon tRNA(Lys3) and Pr160gag-plo incorporation into HIV-1. 903 61

Lysogenization of mycobacteriophage L5 involves integration of the phage genome into the Mycobacterium smegmatis chromosome. Integration occurs by a site-specific recombination event between a phage attachment site, attP, and a bacterial attachment site, attB, which is catalyzed by the phage-encoded integrase protein. DNase I footprinting reveals that L5 integrase binds to two types of sites within attP which span an unexpectedly large region of 413 bp: seven arm-type sites (P1 to P7) each of which correspond to a consensus sequence 5'-TGCaaCtcYy, and core-type sites at the points of strand exchange. Mutational analyses indicate that not all of the arm-type sites are required for integration, and that the P3 site and the rightmost pair of sites (P6 and P7) are dispensable for integration. We show that a 252 bp segment of attP DNA is sufficient for efficient integrative recombination and that int can be provided in trans for simple and efficient transformation of the mycobacteria.
J Mol Biol 1997 Feb 14
PMID:Characterization of the mycobacteriophage L5 attachment site, attP. 905 72

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