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)

During genetic crosses between the interfertile green algae Chlamydomonas eugametos and Chlamydomonas moewusii, the I-CeuI endonuclease encoded by the fifth group I intron (CeLSU.5) in the C. eugametos chloroplast large subunit rRNA gene mediates the mobility of this intron by introducing a double-strand break near the insertion site of the intron in the corresponding C. moewusii intronless allele. To characterize the biochemical properties of this endonuclease, we have purified I-CeuI and determined the optimal reaction conditions for cleavage. I-CeuI activity is maximal at 50 degrees C, pH 10.0, 2.5 mM MgCl2 and in the absence of NaCl. Unlike the well-characterized I-SceI endonuclease, I-CeuI remains stable following preincubation in the absence of substrate. We discuss the role that homing endonucleases may have played in the evolution of Chlamydomonas chloroplast group I introns.
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PMID:The I-CeuI endonuclease: purification and potential role in the evolution of Chlamydomonas group I introns. 814 39

Mitochondrial DNA transmission has been analyzed in diploids produced from sexual crosses or artificial fusions between Chlamydomonas strains which differ by several genetic markers: a group I intron (Cs cob. 1 or alpha intron), three restriction sites (Nh, Nc and H markers) located 0.5-5 kb from the insertion site of the intron, and a MUD2 point mutation (27 bp from the insertion site) conferring resistance to myxothiazol. Recombination between mitochondrial markers is a general property of all crosses and fusions analyzed. In crosses between two intron-containing (alpha+) strains or two intron-less (alpha-) strains, the transmission is preferentially paternal (mt-), with a preponderance depending on the nature of the parental genomes. In crosses between alpha+ and alpha- strains, the conversion of intron-less molecules intron+ is frequent when the alpha+ parent is maternal (mt+) and nearly absolute when the alpha+ parent is paternal (mt-). In 94% of cases, the conversion is accompanied by the co-conversion of the MUD2 marker. In both crosses and artificial fusions, the conversion of alpha- into alpha+ also influences the transmission of the more distant Nh, Nc and H markers. It is hypothesized that the more frequent transmission of the genome containing the intron results from the elimination of alpha- molecules, as a result of a double-strand cut which is induced by an endonuclease encoded by the intron.
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PMID:Transmission, recombination and conversion of mitochondrial markers in relation to the mobility of a group I intron in Chlamydomonas. 831 12

The chloroplast ribosomal intron of Chlamydomonas reinhardtii encodes a sequence-specific DNA endonuclease (I-CreI), which is most probably involved in the mobility of this intron. Here we show that I-CreI generates a 4 bp staggered cleavage just downstream of the intron insertion site. The I-CreI recognition sequence is 19-24 bp in size and is located asymmetrically around the intron insertion site. Screening of natural variants of the I-CreI recognition sequence indicates that the I-CreI endonuclease tolerates single and even multiple base changes within its recognition sequence.
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PMID:Characterization of the cleavage site and the recognition sequence of the I-CreI DNA endonuclease encoded by the chloroplast ribosomal intron of Chlamydomonas reinhardtii. 843 85

The intron-encoded endonuclease I-CeuI from Chlamydomonas eugametos was shown to cleave the circular chromosomes of all Clostridium perfringens strains examined at single sites in the rRNA operons, thereby generating ten fragments suitable for the rapid mapping of virulence genes by pulsed-field gel electrophoresis (PFGE). This method easily distinguishes between plasmid and chromosomal localisations, as I-CeuI only cuts chromosomal DNA. Using this approach, the genes for three of the four typing toxins, beta, epsilon, and tau, in addition to the enterotoxin and lambda-toxin genes, were shown to be plasmid-borne. In a minority of strains, associated with food poisoning, where the enterotoxin toxin gene was located on the chromosome, genes for two of the minor toxins, theta and mu, were missing.
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PMID:Genome mapping of Clostridium perfringens strains with I-CeuI shows many virulence genes to be plasmid-borne. 875 4

The mechanisms of chloroplast recombination are largely unknown. Using the chloroplast-encoded homing endonuclease I-CreI from Chlamydomonas reinhardtii, an experimental system is described that allows the study of double strand break (DSB)-induced recombination in chloroplasts. The I-CreI endonuclease is encoded by the chloroplast ribosomal group I intron of C.reinhardtii and cleaves specifically intronless copies of the large ribosomal RNA (23S) gene. To study DSB-induced recombination in chloroplast DNA, the genes encoding the I-CreI endonuclease were deleted and a target site for I-CreI, embedded in a cDNA of the 23S gene, was integrated at an ectopic location. Endonuclease function was transiently provided by mating the strains containing the recombination substrate to a wild-type strain. The outcome of DSB repair was analyzed in haploid progeny of these crosses. Interestingly, resolution of DSB repair strictly depended upon the relative orientation of the ectopic ribosomal cDNA and the adjacent copy of the 23S gene. Gene conversion was observed when the 23S cDNA and the neighbouring copy of the 23S gene were in opposite orientation, leading to mobilization of the intron to the 23S cDNA. In contrast, arrangement of the 23S cDNA in direct repeat orientation relative to the proximal 23S gene resulted in a deletion between the 23S cDNA and the 23S gene. These results demonstrate that C.reinhardtii chloroplasts have an efficient system for DSB repair and that homologous recombination is strongly stimulated by DSBs in chloroplast DNA.
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PMID:Double strand break-induced recombination in Chlamydomonas reinhardtii chloroplasts. 881 Oct 85

The proteasome-like ClpP protease is widely distributed and structurally conserved among bacteria and eukaryotic cell organelles. In Chlamydomonas eugametos, however, the chloroplast clpP gene predicted a much larger ClpP protein containing large insertion sequences (ISs). One insertion sequence, IS2, is 456 amino acid residues long and not similar to known proteins. Here we show that IS2 is an unusual intein, and its protein splicing activity in Escherichia coli cells can be activated by a single amino acid substitution. Analysis of IS2 sequence revealed short sequence motifs that are similar to known intein motifs, including putative LAGLI-DADG endonuclease motifs. But a histidine residue conserved at the C terminus of known inteins is replaced in the IS2 sequence by a glycine residue (Gly455), rendering the IS2 sequence incapable of detectable protein splicing when tested in E. coli cells. Changing Gly455 to histidine activated the ability of IS2 to undergo protein splicing in E. coli cells. The IS2 sequence (intein) was precisely excised from a precursor protein, with the flanking sequences (exteins) joined together by a normal peptide bond.
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PMID:Identification of an unusual intein in chloroplast ClpP protease of Chlamydomonas eugametos. 911 46

Group I intron endonuclease I-CreI is encoded by an open reading frame contained within a self-splicing intron in the Chlamydomonas reinhardtii chloroplast 23S rRNA gene. I-CreI initiates the lateral transfer or homing of this intron by specifically recognizing and cleaving a pseudopalindromic 19-24 bp homing site in chloroplast 23S rRNA genes that lack the intron. The gene encoding this enzyme has been subcloned, and the protein product has been purified and crystallized. The crystals belong to space group P321, with unit cell dimensions a = b = 78.2 A, c = 67.4 A. The crystal unit cell is consistent with an asymmetric unit consisting of the enzyme monomer. The specific volume of this unit cell is 3.3 A3/Da. The crystals diffract to at least 3.0 A resolution after flash-cooling, when using a rotating anode x-ray source and an RAXIS image plate detector.
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PMID:Crystallization and preliminary X-ray studies of I-CreI: a group I intron-encoded endonuclease from C. reinhardtii. 914

We have developed and used a genetic selection system in Escherichia coli to study functional requirements for homing site recognition and cleavage by a representative eukaryotic mobile intron endonuclease. The homing endonuclease, I-CreI, was originally isolated from the chloroplast of the unicellular green alga Chlamydomonas reinhardtii. I-CreI homing site mutants contained base pair substitutions or single base deletions that altered the rate of homing site cleavage and/or product release. I-CreI endonuclease mutants fell into six phenotypic classes that differed in in vivo activity, toxicity or genetic dominance. Inactivating mutations clustered in the N-terminal 60% of the I-CreI amino acid sequence, and two frameshift mutations were isolated that resulted in premature translation termination though retained partial activity. These mutations indicate that the N-terminal two-thirds of the I-CreI endonuclease is sufficient for homing site recognition and cleavage. Substitution mutations altered in four potential active site residues were examined: D20N, Q47H or R70A substitutions inactivated endonuclease activity, whereas S22A did not. The genetic approach we have taken complements phylogenetic and structural studies of mobile intron endonucleases and has provided new information on the mechanistic basis of I-CreI homing site recognition and cleavage.
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PMID:Genetic analysis of the Chlamydomonas reinhardtii I-CreI mobile intron homing system in Escherichia coli. 940 28

We have determined the ability of two well-characterized eukaryotic homing endonucleases, I-PpoI from the myxomycete Physarum polycephalum and I-CreI from the green alga Chlamydomonas reinhardtii, to generate site-specific DNA double-strand breaks in human cells. These 18-kDa proteins cleave highly conserved 15- or 24-bp rDNA homing sites in their respective hosts to generate homogeneous 4-base, 3' ends that initiate target intron transposition or "homing." We show that both endonucleases can be expressed in human cells and can generate site-specific DNA double-strand breaks in 28S rDNA and homing site plasmids. These endonuclease-induced breaks can be repaired in vivo, although break repair is mutagenic with the frequent generation of short deletions or insertions. I-PpoI and I-CreI should be useful for analyzing DNA double-strand break repair in human cells and rDNA.
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PMID:Generation of highly site-specific DNA double-strand breaks in human cells by the homing endonucleases I-PpoI and I-CreI. 1008 60

Two distinct mitochondrial genome types have been described among the green algal lineages investigated to date: a reduced-derived, Chlamydomonas-like type and an ancestral, Prototheca-like type. To determine if this unexpected dichotomy is real or is due to insufficient or biased sampling and to define trends in the evolution of the green algal mitochondrial genome, we sequenced and analyzed the mitochondrial DNA (mtDNA) of Scenedesmus obliquus. This genome is 42,919 bp in size and encodes 42 conserved genes (i.e., large and small subunit rRNA genes, 27 tRNA and 13 respiratory protein-coding genes), four additional free-standing open reading frames with no known homologs, and an intronic reading frame with endonuclease/maturase similarity. No 5S rRNA or ribosomal protein-coding genes have been identified in Scenedesmus mtDNA. The standard protein-coding genes feature a deviant genetic code characterized by the use of UAG (normally a stop codon) to specify leucine, and the unprecedented use of UCA (normally a serine codon) as a signal for termination of translation. The mitochondrial genome of Scenedesmus combines features of both green algal mitochondrial genome types: the presence of a more complex set of protein-coding and tRNA genes is shared with the ancestral type, whereas the lack of 5S rRNA and ribosomal protein-coding genes as well as the presence of fragmented and scrambled rRNA genes are shared with the reduced-derived type of mitochondrial genome organization. Furthermore, the gene content and the fragmentation pattern of the rRNA genes suggest that this genome represents an intermediate stage in the evolutionary process of mitochondrial genome streamlining in green algae.
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PMID:The complete mitochondrial DNA sequence of Scenedesmus obliquus reflects an intermediate stage in the evolution of the green algal mitochondrial genome. 1085 13

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