EC:3.1.30.2 - FACTA Search

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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)

Two independent pathways of transcriptional regulation that show functional homology have been identified in yeast. It has been demonstrated previously that SWI5 encodes a zinc finger DNA-binding protein whose transcription and cellular localization both are cell cycle regulated. We show that ACE2, whose zinc finger region is nearly identical to that of SWI5, shows patterns of cell cycle-regulated transcription and nuclear localization similar to those seen previously for SWI5. Despite their similarities, SWI5 and ACE2 function in separate pathways of transcriptional regulation. SWI5 is a transcriptional activator of the HO endonuclease gene, whereas ACE2 is not. In contrast, ACE2 is a transcriptional activator of the CTS1 gene (which encodes chitinase), whereas SWI5 is not. An additional parallel between the SWI5/HO pathway and the ACE2/CTS1 pathway is that HO and CTS1 both are cell cycle regulated in the same way, and HO and CTS1 both require the SWI4 and SWI6 transcriptional activators. Overproduction of either SWI5 or ACE2 permits transcriptional activation of the target gene from the other pathway, suggesting that the DNA-binding proteins are capable of binding in vivo to promoters that they do not usually activate. Chimeric SWI5/ACE2 protein fusion experiments suggest that promoter specificity resides in a domain distinct from the zinc finger domain.
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PMID:Parallel pathways of gene regulation: homologous regulators SWI5 and ACE2 differentially control transcription of HO and chitinase. 173 Apr 13

The rapid identification of anti-HIV compounds in the laboratory following the isolation of the causative virus in 1983 and their subsequent use in the clinic was not unexpected. Three decades of previous work had established a scientific basis for the evaluation of antiviral compounds. However, no antiviral yet discovered can cause total blockade of a virus replicating in a cell. The combination of properties of HIV including latency, antigenic and biochemical variation is unusual and the virus represents a daunting challenge for chemotherapy. But at least 90 antiviral compounds have been discovered, many inhibiting the virus reverse transcriptase. Other targets for inhibition are possible including viral regulatory gene products, viral protease and endonuclease enzymes but compounds for initial study will have to be found by random searching. X-ray crystallography of HIV proteins will shortly be possible, enabling the commencement of a more molecular specific search for inhibitors. Meanwhile, advantage can be taken of comparative nucleotide sequences of the HIV-1 and -2 genomes to test short oligonucleotides as potential inhibitors of mRNA transcription. The pol gene also has a zinc finger amino acid sequence suggesting that chelation chemotherapy may have a potential role. In the absence of HIV vaccines, and associated theoretical problems in their development, antiviral chemotherapy is expected to occupy a central role in combating the AIDS epidemic.
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PMID:Potential target sites for antiviral inhibitors of human immunodeficiency virus (HIV). 265 20

In the present paper we describe the characterization of a Trypanosoma cruzi cDNA (L1Tc) corresponding to a transcript from a new long terminal repeat (LTR) retrotransposon. This element is present in a high-copy number, and is found dispersed throughout the T. cruzi genome. Northern analysis shows an abundant expression of L1Tc-related sequences with a major band of about 5 kb. The transcript has at its 3' end a fragment of a highly repetitive DNA sequence (E12A), at its 5' end a ribosomal mobile element-like sequence and three putative open reading frames (ORF) in different frames. The ORF2 codes for a protein which has significant homology with the retrotranscriptase-related sequences from non-LTR retrotransposons containing the seven domains present in all the retrotranscriptase and retrotranscriptase-related proteins. The ORF3 codes for a gag-like protein showing unusual cysteine motifs present in all non-LTR trypanosomatid elements, similar to the C2H2 zinc finger family of transcription factors. Interestingly, ORF1 codes for a protein with significant homology to the major human AP endonuclease protein, and maintains in similar positions most of the amino acid domains described for all the Ape family of proteins. The presence of Ape-related sequences, described for the first time in a non-LTR retrotransposon (L1Tc), may have functional relevance for these types of elements.
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PMID:Characterization of a non-long terminal repeat retrotransposon cDNA (L1Tc) from Trypanosoma cruzi: homology of the first ORF with the ape family of DNA repair enzymes. 753 29

Acute promyelocytic leukemia (APML) almost always involves a chromosomal translocation t(15:17) that results in the fusion of the retinoic acid receptor alpha (RAR alpha) gene with a transcription factor gene called PML. Several cases of APML with t(11;17) have recently been described, involving fusion of the RAR alpha gene with a new zinc finger gene named PLZF. We report here a second non-classical translocation, t(5;17), with a rearranged RAR alpha gene in a child with APML. Based on restriction endonuclease analysis, the rearrangement of RAR alpha occurred within the second intron, the common breakpoint site for t(15;17). The leukemic cells in the bone marrow aspirate were a mixture of hypergranular and hypogranular bilobed promyelocytes. Although less than 1% abnormal promyelocytes were identified after induction therapy, cytogenetics revealed persistent t(5;17). Therefore, the child was treated with all-trans-retinoic acid (ATRA). There was no disease progression, and one marrow was interpreted as remission, with confirmation by cytogenetics which failed to reveal the translocation. However, disease reoccurred shortly after completion of ATRA. This poor response to ATRA may be an additional characteristic associated with non-classical translocations in APML. The identification of a second variant translocation involving the RAR alpha gene in APML suggests yet another RAR alpha rearrangement related to neoplastic myelopoiesis.
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PMID:A non-classical translocation involving 17q12 (retinoic acid receptor alpha) in acute promyelocytic leukemia (APML) with atypical features. 805 72

A long-term goal in the field of restriction-modification enzymes has been to generate restriction endonucleases with novel sequence specificities by mutating or engineering existing enzymes. This will avoid the increasingly arduous task of extensive screening of bacteria and other microorganisms for new enzymes. Here, we report the deliberate creation of novel site-specific endonucleases by linking two different zinc finger proteins to the cleavage domain of Fok I endonuclease. Both fusion proteins are active and under optimal conditions cleave DNA in a sequence-specific manner. Thus, the modular structure of Fok I endonuclease and the zinc finger motifs makes it possible to create "artificial" nucleases that will cut DNA near a predetermined site. This opens the way to generate many new enzymes with tailor-made sequence specificities desirable for various applications.
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PMID:Hybrid restriction enzymes: zinc finger fusions to Fok I cleavage domain. 857 32

HO-endonuclease initiates a mating-type switch in the yeast S. cerevisiae by making a double-strand cleavage in the DNA of the mating-type gene, MAT. Heterothallic strains of yeast have a stable mating type and contain a recessive ho allele. Here we report the sequence of the ho allele; ho has four point mutations all of which encode for substitute amino acids. The fourth mutation is a leucine to histidine substitution within a presumptive zinc finger. Chimeric HO/ho genes were constructed in vivo by converting different parts of the sequence of the genomic ho allele to the HO sequence by gene conversion. HO activity was assessed by three bioassays: a mating-type switch, extinction of expression of an a-specific reporter gene, and the appearance of Canr Ade- papillae resulting from excision of an engineered Ty element containing the HO-endonuclease target site and a SUP4 degrees gene. We found that the replacement of the fourth point mutation in ho to the HO sequence restored HO activity to the chimeric endonuclease.
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PMID:Identification of the heterothallic mutation in HO-endonuclease of S. cerevisiae using HO/ho chimeric genes. 859 Apr 83

The mitochondrial genome of the brown alga Pylaiella littoralis contains two different types of group II introns. They each encode complete complex proteins, i.e., with a reverse transcriptase domain, a maturase or X domain, and an endonuclease or H-N-H/zinc finger domain. To our knowledge, this is the first example of the presence in the same genome of introns belonging to subgroups IIA and IIB which both contain multidomained RT-like proteins. We describe the group IIA introns that interrupt the cox1 gene. The RT-like proteins contained in these introns were compared to those of the LSU rDNA group IIB introns. The phylogenetic relationships of these intron ORFs were investigated and the possible evolution of group II introns is discussed.
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PMID:The reverse-transcriptase-like proteins encoded by group II introns in the mitochondrial genome of the brown alga Pylaiella littoralis belong to two different lineages which apparently coevolved with the group II ribosyme lineages. 901 Jan 34

Mating type switching in Saccharomyces cerevisiae initiates when Ho endonuclease makes a double-stranded DNA break at the yeast MAT locus. In this report, we characterize the fundamental biochemical properties of Ho. Using an assay that monitors cleavage of a MAT plasmid, we define an optimal in vitro reaction, showing in particular that the enzyme has a stringent requirement for zinc ions. This suggests that zinc finger motifs present in Ho are important for cleavage. The most unexpected feature of Ho, however, is its extreme inefficiency. Maximal cleavage occurs when Ho is present at a concentration of 1 molecule/3 base pairs of substrate DNA. Even under these conditions, complete digestion requires >2 h. This inefficiency results from two characteristics of Ho. First, Ho recycles slowly from cleaved product to new substrate, in part because the enzyme has an affinity for one end of its double strand break product. Second, high levels of cleavage in the in vitro reaction correlate with the appearance of large protein-DNA aggregates. At optimal Ho concentrations, these latter aggregates, referred to as "florettes," have an ordered structure consisting of a densely staining central region and loops of radiating DNA. These unusual properties may indicate that Ho plays a role in other aspects of mating type switching subsequent to double strand break formation.
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PMID:Ho endonuclease cleaves MAT DNA in vitro by an inefficient stoichiometric reaction mechanism. 905 34

The prevention of apoptosis by Zn2+ has generally been attributed to its inhibition of an endonuclease acting in the late phase of apoptosis. In this study we investigated the effect of Zn2+ on an earlier event in the apoptotic process, the proteolysis of the "death substrate" poly(ADP-ribose) polymerase (PARP). Pretreatment of intact Molt4 leukemia cells with micromolar concentrations of Zn2+ caused an inhibition of PARP proteolysis induced by the chemotherapeutic agent etoposide. Using a cell-free system consisting of purified bovine PARP as a substrate and an apoptotic extract or recombinant caspase-3 as the PARP protease, Zn2+ inhibited PARP proteolysis in the low micromolar range. To rule out an effect of Zn2+ on PARP, a protein with two zinc finger domains, we used recombinant caspase-3 and a chromogenic tetrapeptide substrate containing the caspase-3 cleavage site. In this system, Zn2+ inhibited caspase-3 with an IC50 of 0.1 microM. These results identify caspase-3 as a novel target of Zn2+ inhibition in apoptosis and suggest a regulatory role for Zn2+ in modulating the upstream apoptotic machinery.
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PMID:Zinc is a potent inhibitor of the apoptotic protease, caspase-3. A novel target for zinc in the inhibition of apoptosis. 922 15

Ho-endonuclease of the yeast, Saccharomyces cerevisiae, initiates a mating type switch by making a site-specific double strand break in the mating type gene, MAT. Ho is a dodecamer endonuclease and shares six of the seven intein motifs with PI- Sce I endonuclease, an intein encoded by the VMAI gene. We show that a 113 residue truncated Ho-endonuclease starting at intein motif C initiates a mating type switch in yeast. Ho is the only dodecamer endonuclease with zinc fingers. To see whether they have a role in determining site specificity we exchanged them for zinc fingers of the yeast transcription factor, Swi5. A chimeric endonuclease comprising the dodecamer motifs of Ho (C-E) and the zinc finger domain of Swi5 cleaves a Swi5 substrate plasmid in vivo. A similar chimera with the zinc fingers of SpI cleaves a GC box rich substrate plasmid. These experiments delineate a catalytic fragment of Ho-endonuclease that can be fused to various DNA binding moieties in the design of chimeric endonucleases with new site specificities.
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PMID:Targeting a truncated Ho-endonuclease of yeast to novel DNA sites with foreign zinc fingers. 946 31

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