Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.30.2 (endonuclease)
 18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Aided by sensitive sequence profile searches we identify a novel conserved domain in the N-terminal regions of the SWI2/SNF2 proteins typified by HIP116 and Rad5p (hence HIP116, Rad5p N-terminal domain: HIRAN domain). We show that the HIRAN domain is found as a standalone protein in several bacteria and prophages, or fused to other catalytic domains, such as a nuclease of the restriction endonuclease fold and TDP1-like DNA phosphoesterases, in the eukaryotes. Based on a network of contextual connections in the form of domain architectures, conserved gene neighborhoods and functional interactions we predict that the HIRAN domain is likely to function as a DNA-binding domain that probably recognizes features associated with damaged DNA or stalled replication forks. It might thus act as a sensor to initiate a damaged DNA checkpoint and engage different DNA repair and chromatin remodeling or modifying activities to these sites. In evolutionary terms, the fusion of the HIRAN domain, and the functionally analogous RAD18 Zn-finger and the PARP-type Zn-finger to SWI2/SNF2 ATPases appears to have been a notable factor for recruiting these ATPases for chromatin modification and remodeling in the context of DNA repair.
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PMID:The HIRAN domain and recruitment of chromatin remodeling and repair activities to damaged DNA. 1662 93

Mitochondrial processes influence a broad spectrum of physiological and developmental events in higher eukaryotes, and their aberrant function can lead to several familiar disease phenotypes in mammals. In plants, mitochondrial genes directly influence pollen development and the occurrence of male sterility in natural plant populations. Likewise, in animal systems evidence accumulates to suggest important mitochondrial functions in spermatogenesis and reproduction. Here we present evidence for a convergent gene fusion involving a MutS-homologous gene functioning within the mitochondrion and designated Msh1. In only plants and soft corals, the MutS homologue has fused with a homing endonuclease sequence at the carboxy terminus of the protein. However, the endonuclease domains in the plants and the soft corals are members of different groups. In plants, Msh1 can influence mitochondrial genome organization and male sterility expression. Based on parallels in Msh1 gene structure shared by plants and corals, and their similarities in reproductive behavior, we postulate that this convergent gene fusion might have occurred in response to coincident adaptive pressures on reproduction.
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PMID:Mitochondrial genome dynamics in plants and animals: convergent gene fusions of a MutS homologue. 1683 98

Bacteria producing endonuclease colicins are protected against the cytotoxic activity by a small immunity protein that binds with high affinity and specificity to inactivate the endonuclease. This complex is released into the extracellular medium, and the immunity protein is jettisoned upon binding of the complex to susceptible cells. However, it is not known how and at what stage during infection the immunity protein release occurs. Here, we constructed a hybrid immunity protein composed of the enhanced green fluorescent protein (EGFP) fused to the colicin E2 immunity protein (Im2) to enhance its detection. The EGFP-Im2 protein binds the free colicin E2 with a 1:1 stoichiometry and specifically inhibits its DNase activity. The addition of this hybrid complex to susceptible cells reveals that the release of the hybrid immunity protein is a time-dependent process. This process is achieved 20 min after the addition of the complex to the cells. We showed that complex dissociation requires a functional translocon formed by the BtuB protein and one porin (either OmpF or OmpC) and a functional import machinery formed by the Tol proteins. Cell fractionation and protease susceptibility experiments indicate that the immunity protein does not cross the cell envelope during colicin import. These observations suggest that dissociation of the immunity protein occurs at the outer membrane surface and requires full translocation of the colicin E2 N-terminal domain.
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PMID:Release of immunity protein requires functional endonuclease colicin import machinery. 1701 83

Oxidative stress in the brain may cause neuro-degeneration, possibly due to DNA damage. Oxidative base lesions in DNA are mainly repaired by base excision repair (BER). The DNA glycosylases Nei-like DNA glycosylase 1 (NEIL1), Nei-like DNA glycosylase 2 (NEIL2), mitochondrial uracil-DNA glycosylase 1 (UNG1), nuclear uracil-DNA glycosylase 2 (UNG2) and endonuclease III-like 1 protein (NTH1) collectively remove most oxidized pyrimidines, while 8-oxoguanine-DNA glycosylase 1 (OGG1) removes oxidized purines. Although uracil is the main substrate of uracil-DNA glycosylases UNG1 and UNG2, these proteins also remove the oxidized cytosine derivatives isodialuric acid, alloxan and 5-hydroxyuracil. UNG1 and UNG2 have identical catalytic domain, but different N-terminal regions required for subcellular sorting. We demonstrate that mRNA for UNG1, but not UNG2, is increased after hydrogen peroxide, indicating regulatory effects of oxidative stress on mitochondrial BER. To examine the overall organization of uracil-BER in nuclei and mitochondria, we constructed cell lines expressing EYFP (enhanced yellow fluorescent protein) fused to UNG1 or UNG2. These were used to investigate the possible presence of multi-protein BER complexes in nuclei and mitochondria. Extracts from nuclei and mitochondria were both proficient in complete uracil-BER in vitro. BER assays with immunoprecipitates demonstrated that UNG2-EYFP, but not UNG1-EYFP, formed complexes that carried out complete BER. Although apurinic/apyrimidinic site endonuclease 1 (APE1) is highly enriched in nuclei relative to mitochondria, it was apparently the major AP-endonuclease required for BER in both organelles. APE2 is enriched in mitochondria, but its possible role in BER remains uncertain. These results demonstrate that nuclear and mitochondrial BER processes are differently organized. Furthermore, the upregulation of mRNA for mitochondrial UNG1 after oxidative stress indicates that it may have an important role in repair of oxidized pyrimidines.
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PMID:Different organization of base excision repair of uracil in DNA in nuclei and mitochondria and selective upregulation of mitochondrial uracil-DNA glycosylase after oxidative stress. 1710 Dec 34

Mesophyll protoplasts of plastome chlorophyll-deficient, streptomycin-resistant Nicotiana tabacum were fused with those of wild type Atropa belladonna using the polyethylene-glycol/high Ca++/dimethylsulfoxide method. Protoplasts were cultured in nutrient media suitable for regeneration of tobacco but not Atropa cells. In two experiments, a total of 41 cell lines have been selected as green colonies. Cytogenetic (chromosomal number and morphology) and biochemical (isozyme analyses of esterase, amylase and peroxidase) studies were used to evaluate the nuclear genetic constitution of regenerated plants. To study plastid genetic constitution, restriction endonuclease analysis of chloroplast DNA was performed. Three groups of regenerants have been identified: (a) nuclear hybrids (4 cell lines); (b) Atropa plants, most probably arising from rare surviving parental protoplasts (4 lines) and (c) Nicotiana/Atropa cybrids possessing a tobacco genome and an Atropa plastome (33 lines). Most of cybrids obtained were diploid, morphogenetically normal plants phenotypically similar to tobacco. Some plants flowered and yielded viable seeds. Part of cybrid regenerants were variegated, variegation being transmitted to sexual progeny. Electron microscopic analysis of the mesophyll cells of variegated leaves revealed the presence of heteroplastidic cells. Analysis of thylakoid membrane polypeptides shows that in the cybrids the content of at least one of the major polypeptides, presumably a chlorophyll a/b binding protein is drastically reduced.
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PMID:Functional cybrid plants possessing a Nicotiana genome and an Atropa plastome. 1718 22

Viral DNA binding proteins that direct nucleases or other protein domains to viral DNA in lytically or latently infected cells may provide a novel approach to modulate viral gene expression or replication. Cervical carcinogenesis is initiated by high-risk human papillomavirus (HPV) infection, and viral DNA persists in the cancer cells. To test whether a DNA binding domain of a papillomavirus protein can direct a nuclease domain to cleave HPV DNA in cervical cancer cells, we fused the DNA binding domain of the bovine papillomavirus type 1 (BPV1) E2 protein to the catalytic domain of the FokI restriction endonuclease, generating a BPV1 E2-FokI chimeric nuclease (BEF). BEF introduced DNA double-strand breaks on both sides of an E2 binding site in vitro, whereas DNA binding or catalytic mutants of BEF did not. After expression of BEF in HeLa cervical carcinoma cells, we detected cleavage at E2 binding sites in the integrated HPV18 DNA in these cells and also at an E2 binding site in cellular DNA. BEF-expressing cells underwent senescence, which required the DNA binding activity of BEF, but not its nuclease activity. These results demonstrate that DNA binding domains of viral proteins can target effector molecules to cognate binding sites in virally infected cells.
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PMID:The DNA binding domain of a papillomavirus E2 protein programs a chimeric nuclease to cleave integrated human papillomavirus DNA in HeLa cervical carcinoma cells. 1739 56

Splicing of precursor tRNAs in plants requires the concerted action of three enzymes: an endonuclease to cleave the intron at the two splice sites, an RNA ligase for joining the resulting tRNA halves and a 2'-phosphotransferase to remove the 2'-phosphate from the splice junction. Pre-tRNA splicing has been demonstrated to occur exclusively in the nucleus of vertebrates and in the cytoplasm of budding yeast cells, respectively. We have investigated the subcellular localization of plant splicing enzymes fused to GFP by their transient expression in Allium epidermal and Vicia guard cells. Our results show that all three classes of splicing enzymes derived from Arabidopsis and Oryza are localized in the nucleus, suggesting that plant pre-tRNA splicing takes place preferentially in the nucleus. Moreover, two of the splicing enzymes, i.e., tRNA ligase and 2'-phosphotransferase, contain chloroplast transit signals at their N-termini and are predominantly targeted to chloroplasts and proplastids, respectively. The putative transit sequences are effective also in the heterologous context fused directly to GFP. Chloroplast genomes do not encode intron-containing tRNA genes of the nuclear type and consequently tRNA ligase and 2'-phosphotransferase are not required for classical pre-tRNA splicing in these organelles but they may play a role in tRNA repair and/or splicing of atypical group II introns. Additionally, 2'-phosphotransferase-GFP fusion protein has been found to be associated with mitochondria, as confirmed by colocalization studies with MitoTracker Red. In vivo analyses with mutated constructs suggest that alternative initiation of translation is one way utilized by tRNA splicing enzymes for differential targeting.
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PMID:Plant pre-tRNA splicing enzymes are targeted to multiple cellular compartments. 1769 77

We designed DNA substrates to study intrachromosomal recombination in mammalian chromosomes. Each substrate contains a thymidine kinase (tk) gene fused to a neomycin resistance (neo) gene. The fusion gene is disrupted by an oligonucleotide containing the 18-bp recognition site for endonuclease I-SceI. Substrates also contain a "donor" tk sequence that displays 1% or 19% sequence divergence relative to the tk portion of the fusion gene. Each donor serves as a potential recombination partner for the fusion gene. After stably transfecting substrates into mammalian cell lines, we investigated spontaneous recombination and double-strand break (DSB)-induced recombination following I-SceI expression. No recombination events between sequences with 19% divergence were recovered. Strikingly, even though no selection for accurate repair was imposed, accurate conservative homologous recombination was the predominant DSB repair event recovered from rodent and human cell lines transfected with the substrate containing sequences displaying 1% divergence. Our work is the first unequivocal demonstration that homologous recombination can serve as a major DSB repair pathway in mammalian chromosomes. We also found that Msh2 can modulate homologous recombination in that Msh2 deficiency promoted discontinuity and increased length of gene conversion tracts and brought about a severalfold increase in the overall frequency of DSB-induced recombination.
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PMID:Accurate homologous recombination is a prominent double-strand break repair pathway in mammalian chromosomes and is modulated by mismatch repair protein Msh2. 1784 23

Streptococcus equi subsp. zooepidemicus belongs to lancefield group C streptococcus, which can cause disease both in animals and humans. It has been associated with a wide variety of serious infections, including meningitis, pneumonia, septic arthritis and mastitis. The M like proteins on the surface of S. equi subsp. zooepidemicus have an antiphagocytic role analogous to that of group A streptococcal M proteins that are essential in establishing infection. In the present study, the M-like gene without partial signal peptide sequence was amplified from genomic DNA of S. equi subsp. zooepidemicus ATCC35246 strain isolated from pig by polymerase chain reaction (PCR). Then the amplified fragment was cloned in the proper orientation into the site between EcoR I and Xho I of pET32-a(+) via restriction endonuclease EcoR I and Xho I. The recombinant plasmid was verified by restriction endonuclease analysis and nucleotide sequencing, then transformed into E. coli BL21. An fusion protein was expressed in BL21 after induced by IPTG, SDS-PAGE analysis showed that the recombinant protein had a molecular weight of 60 kD, Western blotting showed a positive reaction with the antiserum against ATCC35246. To prepare the monoclonal antibodies (McAbs) against the M-like protein, 6-8 weeks old BABL/c mice were immunized endermicly with purified recombinant M-like protein by Ni-nitrilotriacetic acid affinity chromatography. Splenocytes from the immuniszed mice were fused with SP2/0 and indirect ELISA was used to screen hybridoma cells. 12 hybridoma cell lines secreting McAbs against M-like protein of Streptococcus equi subsp. zooepidemicus were generated, and indirect ELISA confirmed that these McAbs only reacted with M-like protein, but not reacted with other bacteria such as group A Streptococci, Streptococcus suis type 2, Streptococcus equi. The indirect ELISA titers of these 12 ascites McAbs were about 2.56 x 10(4) to 1.01 x 10(5) , and the subtype of these McAbs belong to IgG2b, IgG1, IgM. The results of adhersion inhibition showed McAbs 2C8 could inhibit the adhersion of M-like protein to HEp-2 cell.
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PMID:[Development and characterization of monoclonal Antibody against M-like protein of Streptococcus equi subsp. zooepidemicus from pig]. 1794 78

A cleavage-deficient variant of NotI restriction endonuclease (GCGGCCGC) was isolated by random mutagenesis of the notIR gene. The NotI variant D160N was shown to bind DNA and protect plasmid DNA from EagI (CGGCCG) and NotI digestions. The EDTA-resistant BmrI restriction endonuclease cleaves DNA sequence ACTGGG N5/N4. The N-terminal cleavage domain of BmrI (residues 1-198) with non-specific nuclease activity was fused to the NotI variant D160N with a short linker. The engineered chimeric endonuclease (CH-endonuclease) recognizes NotI sites specifically in the presence of high salt (100-150 mM NaCl) and divalent cations Mg++ or Ca++. In contrast to wild-type NotI, which cuts within its recognition sequence, BmrI198-NotI (D160N) cleaves DNA outside of NotI sites, resulting in deletion of the NotI site and the adjacent sequences. The fusion of the BmrI cleavage domain to cleavage-deficient variants of Type II restriction enzymes to generate novel cleavage sites will provide useful tools for DNA manipulation.
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PMID:Rational design of a chimeric endonuclease targeted to NotI recognition site. 1795 12


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