Gene/Protein
Disease
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Drug
Enzyme
Compound
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Gene/Protein
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Target Concepts:
Gene/Protein
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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)
Yeast tRNA ligase is an enzyme required for tRNA splicing. A study by indirect immune fluorescence shows that this enzyme is localized in the cell nucleus. At higher resolution, studies using indirect immune electron microscopy show this nuclear location to be primarily at the inner membrane of the nuclear envelope, most likely at the nuclear pore. There is a more diffuse, secondary location of ligase in a region of the nucleoplasm within 300 nm of the nuclear envelope. When the amount of ligase in the cell is increased, nuclear staining increases but staining of the nuclear envelope remains constant. This experiment indicates that there are a limited number of ligase sites at the nuclear envelope. Since the other tRNA splicing component, the
endonuclease
, has the characteristics of an
integral membrane protein
, we hypothesize that it constitutes the site for the interaction of ligase with the nuclear envelope.
...
PMID:The subnuclear localization of tRNA ligase in yeast. 331 32
Attempts to construct hybrid proteins that are transported to the plasma membrane are frequently unsuccessful because of perturbations in polypeptide folding. In seeking to minimize this problem, we have used the less common type of
integral membrane protein
, which has an uncleaved signal-anchor domain and an extracellular carboxyl portion, to transport a peptide sequence of interest to the cell surface. A set of plasmids was constructed that contained the gene encoding respiratory syncytial virus glycoprotein G (RSVG) interrupted immediately after one of several proline codons by a synthetic sequence containing unique restriction
endonuclease
sites and a stop codon. The shortened RSVG gene was flanked by vaccinia virus DNA to permit cloning and expression in a vaccinia virus vector. An open reading frame encoding four copies of the immunodominant repeating epitope of the circumsporozoite protein of Plasmodium falciparum was inserted into the tails of the truncated RSVG genes. Recombinant vaccinia viruses were isolated and shown to express hybrid proteins that reacted with a monoclonal antibody directed to the repeating circumsporozoite epitope. Moreover, immunofluorescence studies indicated that the peptide was on the external cell surface and available to react with antibodies. Expression of the hybrid protein also occurred in rabbits inoculated with the live recombinant vaccinia virus, as demonstrated by the generation of antibodies that bound to P. falciparum sporozoites in vitro.
...
PMID:Transport to the cell surface of a peptide sequence attached to the truncated C terminus of an N-terminally anchored integral membrane protein. 338 95
Splicing of transfer RNA precursors containing intervening sequences proceeds in two distinct stages: endonucleolytic cleavage, followed by ligation. We have physically separated
endonuclease
and ligase activities from extracts of yeast cells, and we report properties of the partially purified
endonuclease
preparation. The
endonuclease
behaves as an
integral membrane protein
: it is purified from a membrane fraction from which it can be solubilized with nonionic detergents, and the activity of the
endonuclease
in the membrane fraction is stimulated by nonionic detergents. The
endonuclease
cleaves precursor tRNAs at two sites to excise the intervening sequence precisely. Both the extent and the accuracy of cleavage are enhanced by the presence of spermidine; the degree of stimulation varies with the pre-tRNA substrate. The cleavage products possess 5'-hydroxyl and 2',3'-cyclic phosphodiester termini. The cyclic phosphodiester termini can be opened to 2'-phosphates by a cyclic phosphodiesterase activity in the preparation.
...
PMID:Precise excision of intervening sequences from precursor tRNAs by a membrane-associated yeast endonuclease. 618 98
We have re-examined the roles of nucA and nin, in the transformation of Bacillus subtilis as conflicting accounts have been presented concerning the importance of these genes for transformation. The present report demonstrates that nucA deficiency lowers the rate of DNA transport and that NucA is needed for the double-strand cleavage of transforming DNA, probably acting directly as an
endonuclease
. A relative paucity of DNA termini, resulting from the absence of this
endonuclease
activity, most probably accounts for the decreased transport rate. NucA is a bitopic
integral membrane protein
, with its C-terminus external to the membrane where it is appropriately located to effect the cleavage of bound transforming DNA. We have also investigated the roles of the known competence genes in the DNA processing that accompanies transformation in B. subtilis. The genes that are required for DNA transport (comEA, comEC and comFA) are also required for the degradation of the non-transforming strand that accompanies internalization, but comEC and comFA are not needed for the double-strand cleavage that occurs external to the cell membrane.
...
PMID:NucA is required for DNA cleavage during transformation of Bacillus subtilis. 1135 69
Pre-tRNA splicing has been believed to occur in the nucleus. In yeast, the tRNA splicing endonuclease that cleaves the exon-intron junctions of pre-tRNAs consists of Sen54p, Sen2p, Sen34p, and Sen15p and was thought to be an
integral membrane protein
of the inner nuclear envelope. Here we show that the majority of Sen2p, Sen54p, and the
endonuclease
activity are not localized in the nucleus, but on the mitochondrial surface. The
endonuclease
is peripherally associated with the cytosolic surface of the outer mitochondrial membrane. A Sen54p derivative artificially fixed on the mitochondria as an
integral membrane protein
can functionally replace the authentic Sen54p, whereas mutant proteins defective in mitochondrial localization are not fully active. sen2 mutant cells accumulate unspliced pre-tRNAs in the cytosol under the restrictive conditions, and this export of the pre-tRNAs partly depends on Los1p, yeast exportin-t. It is difficult to explain these results from the view of tRNA splicing in the nucleus. We rather propose a new possibility that tRNA splicing occurs on the mitochondrial surface in yeast.
...
PMID:Possibility of cytoplasmic pre-tRNA splicing: the yeast tRNA splicing endonuclease mainly localizes on the mitochondria. 1292 62
We analyzed expression of p53-induced gene 7 (pig7), at the transcript level, in bone marrow samples from patients with de novo acute leukemia (AL) and normal controls by quantitative reverse transcription PCR (RT-PCR), and revealed a markedly decreased pig7 expression in the patient group, as well as in the relapsed/refractory patients compared with those at initial diagnosis. By
endonuclease
analysis, we detected only one form of pig7 transcript, i.e., small
integral membrane protein
of late endosome (simple), in AL patients. In addition, up-regulated pig7 expression could be detected in differentiated leukemic cells induced by drugs. Transient expression of pig7 in leukemic cells exhibited no evident effect on cell proliferation and differentiation, but could intensify inhibitory efficacy of etoposide (VP16) and daunorubicin (DNR). Conclusively, the present study provides the evidence that pig7 is a silenced gene affected by perturbed differentiation in acute leukemia and restoration of pig7 expression sensitizes leukemic cells to chemotherapeutic agents.
...
PMID:Expression of pig7 gene in acute leukemia and its potential to modulate the chemosensitivity of leukemic cells. 1867 16
Clostridium difficile PCR ribotype 106 (also identified as restriction
endonuclease
analysis [REA] group DH) recently emerged as the most common strain causing C. difficile infection (CDI) among US adults. We previously identified this strain predominating our pediatric cohort. Pediatric clinical CDI isolates previously characterized by REA underwent antibiotic resistance testing and whole genome sequencing. Of 134 isolates collected from children, 31 (23%) were REA group DH. We performed a comparative genomics analysis to identify DH-associated accessory genes. We identified five DH-associated genes that are associated with virulence in other bacterial species but not previously known to contribute to CDI. These genes are associated with intestinal mucosal adhesion (collagen-binding surface protein), sporulation (sporulation
integral membrane protein
YtvI), and protection from oxidative stress and foreign DNA (DNA phosphorothioation-dependent restriction proteins, sulfurtransferase, and DNA sulfur modification proteins). The association of these genes was validated in a cohort of 623 publicly available C. difficile sequences, 10 (1.6%) of which were monophyletic to REA group DH through in silico multilocus sequence typing and core genome phylogenetic analysis. Further investigation is required to determine the contribution of these genes to the emergence and virulence of this epidemic strain.
...
PMID:Comparative genomics analysis of Clostridium difficile epidemic strain DH/NAP11/106. 2939 Dec 59
