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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)
Human adenovirus type 2 (Ad2) grows poorly in monkey cells, although this defect can be overcome by co-infection with simian virus 40 (SV40). The nondefective Ad2-SV40 hybrid virus, Ad2(+)
ND1
, replicates efficiently in both human and African green monkey kidney cells, presumably due to the insertion of SV40 sequences into the Ad2 DNA. Several mutants of Ad2(+)
ND1
have been isolated that grow and plaque poorly in monkey cells, although they retain the ability to replicate and plaque efficiently in HeLa cells. One of these mutants (H39) has been examined in detail. Studies comparing the DNA of the mutant with Ad2(+)
ND1
either by the cleavage patterns produced by Escherichia coli R.RI restriction
endonuclease
digestion or by heteroduplexing reveal no differences. The pattern of protein synthesis of Ad2(+)
ND1
and H39 in monkey cells is quite different with the mutant resembling Ad2, which is defective in the synthesis of late proteins. However, in human cells, the proteins synthesized by H39 and the parent Ad2(+)
ND1
are very similar. The production of SV40 U antigen in H39-infected cells is different from that in Ad2(+)
ND1
-infected cells. Finally, the growth of H39 in monkey cells can be complemented by SV40.
...
PMID:Conditional lethal mutants of adenovirus 2-simian virus 40 hybrids. I. Host range mutants of Ad2+ND1. 436 98
The products of complete digestion of duplex DNA of each of seven human adenoviruses with restriction
endonuclease
R. EcoRI ranged from two fragments for adenovirus 7 DNA (Ad7) to six fragments for Ad12 and Ad2 DNA. Viral serotypes from the same subgroups appeared to have related cleavage sites; Ad3 DNA and Ad7 (cl E46-LL) DNA were each cleaved into three fragments, and Ad7 (cl 19) DNA lacked one of the cleavage sites present in Ad3 and Ad7 (cl E46-LL) DNA. One of the cleavage sites in Ad2 DNA was deleted in the DNA' of adeno-SV40 hybrid virus Ad2(+)
ND1
, and three of the cleavage sites in Ad2 DNA were missing in Ad5 DNA. Thus, Ad2(+)
ND1
DNA was cleaved into five and Ad5 DNA into three fragments. Each fragment represented a unique segment of viral DNA since each fragment was obtained in equimolar amounts and since the sum of the molecular weights of the fragments equaled the molecular weight of the homologous intact adenovirus DNA.
...
PMID:Specific fragmentation of DNA of adenovirus serotypes 3, 5, 7, and 12, and adeno-simian virus 40 hybrid virus Ad2+ND1 by restriction endonuclease R.EcoRI. 436 24
Mitochondrial genes for cytochrome c oxidase subunit I (COI) and NADH dehydrogenase subunit 5 (ND5) of the sea anemone Metridium senile (phylum Cnidaria) each contain a group I intron. This is in contrast to the reported absence of introns in all other metazoan mtDNAs so far examined. The ND5 intron is unusual in that it ends with A and contains two genes (
ND1
and ND3) encoding additional subunits of NADH dehydrogenase. Correctly excised ND5 introns are not circularized but are precisely cleaved near their 3' ends and polyadenylylated to provide bicistronic transcripts of
ND1
and ND3. COI introns, which encode a putative homing
endonuclease
, circularize, but in a way that retains the entire genome-encoded intron sequence (other group I introns are circularized with loss of a short segment of the intron 5' end). Introns were detected in the COI and ND5 genes of other sea anemones, but not in the COI and ND5 genes of other cnidarians. This suggests that the sea anemone mitochondrial introns may have been acquired relatively recently.
...
PMID:Two mitochondrial group I introns in a metazoan, the sea anemone Metridium senile: one intron contains genes for subunits 1 and 3 of NADH dehydrogenase. 864 26
The Neurospora crassa mitochondrial tyrosyl-tRNA synthetase (CYT-18 protein) functions in splicing the N. crassa mitochondrial large rRNA intron by stabilizing the catalytically active structure of the intron core. Here, a comprehensive study of N. crassa mtDNA group I introns identified two additional introns, cob-I2 and the
ND1
intron, that are dependent on CYT-18 for splicing in vitro and in vivo. The other seven N. crassa mtDNA group I introns are not CYT-18-dependent and include five that self-splice and two that do not splice under any conditions examined. Some of these introns may require maturases or other proteins for efficient splicing. All but one of the non-CYT-18-dependent introns contain large peripheral extensions of the P5 stem, related to the P5abc structure that blocks CYT-18 binding to the Tetrahymena large rRNA intron. The remaining non-CYT-18-dependent intron, cob-I1, contains a long, peripheral extension of the P9 stem, denoted P9.1, which also impedes CYT-18 binding. Detailed analysis of the CYT-18-dependent
ND1
intron showed that two 3' splice sites are used in vitro and in vivo. The proximal, alternative 3' splice site brings the intron open reading frame, which potentially encodes a mobility
endonuclease
, in frame with the upstream exon, possibly providing a means of expression. Considered together, our results show that group I introns in N. crassa mitochondria use a variety of strategies involving different proteins and/or RNA structures to assist splicing, and they support the hypothesis that CYT-18 and the peripheral RNA structure P5abc are alternative evolutionary adaptations for stabilizing the active structure of the intron core.
...
PMID:Characterization of Neurospora mitochondrial group I introns reveals different CYT-18 dependent and independent splicing strategies and an alternative 3' splice site for an intron ORF. 904 40
The mitochondrial DNA (mtDNA) sequence variation of 24 Finnish Leber hereditary optic neuroretinopathy (LHON) probands was characterized by sequencing and restriction
endonuclease
analyses. All LHON-associated substitutions and Caucasoid haplogroup-specific mutations were screened in the families. Analysis of the mtDNAs revealed that the Finnish LHON families have two unique features: an absence of the ND6/14484 mutation and a high number of families (10/24) without the primary mutations
ND1
/3460 and ND4/11778. Furthermore, the LHON families showed considerable mtDNA heterogeneity: among 24 families 22 haplotypes were detected. Overall, the haplogrouping of LHON families was similar to other European populations. However, the frequency of ND4/11778-positive families in haplogroup J was high, which may indicate that background mutations in this haplogroup together with the ND4/11778 primary mutation promote the penetrance of LHON.
...
PMID:mtDNA haplotype analysis in Finnish families with leber hereditary optic neuroretinopathy. 941 83
The circular, 17,443 nucleotide-pair mitochondrial (mt) DNA molecule of the sea anemone, Metridium senile (class Anthozoa, phylum Cnidaria) is presented. This molecule contains genes for 13 energy pathway proteins and two ribosomal (r) RNAs but, relative to other metazoan mtDNAs, has two unique features: only two transfer RNAs (tRNA(f-Met) and tRNA(Trp)) are encoded, and the cytochrome c oxidase subunit I (COI) and NADH dehydrogenase subunit 5 (ND5) genes each include a group I intron. The COI intron encodes a putative homing
endonuclease
, and the ND5 intron contains the molecule's
ND1
and ND3 genes. Most of the unusual characteristics of other metazoan mtDNAs are not found in M. senile mtDNA: unorthodox translation initiation codons and partial translation termination codons are absent, the use of TGA to specify tryptophan is the only genetic code modification, and both encoded tRNAs have primary and secondary structures closely resembling those of standard tRNAs. Also, with regard to size and secondary structure potential, the mt-s-rRNA and mt-1-rRNA have the least deviation from Escherichia coli 16S and 23S rRNAs of all known metazoan mt-rRNAs. These observations indicate that most of the genetic variations previously reported in metazoan mtDNAs developed after Cnidaria diverged from the common ancestral line of all other Metazoa.
...
PMID:The mitochondrial genome of the sea anemone Metridium senile (Cnidaria): introns, a paucity of tRNA genes, and a near-standard genetic code. 953 27
Background: Several mutations in mitochondrial DNA (mtDNA) are associated with the syndrome of mitochondrial myopathy, encephalopathy, lactic acidosis, and stroke-like episodes (MELAS). The "common" MELAS mutation, A3243G in the tRNA leucine (UUR) gene, affects approximately 80% of cases and is associated with respiratory chain complex I deficiency. Methods and Results: The A3243G mutation creates an ApaI restriction
endonuclease
site and can be detected by polymerase chain reaction (PCR) amplification of a region of mtDNA containing nt 3243, followed by ApaI digestion and electrophoretic analysis of the resulting fragments. Analysis of mtDNA from a child with complex I deficiency indicated the presence of the mutation homoplasmically in heart, liver, and skeletal muscle. Sequencing revealed only normal tRNA leucine (UUR) sequence, and a novel variant at nt 3426 in the
ND1
subunit of complex I, which creates an ApaI site. ApaI digestion results in fragments of similar size to those found in patients with the A3243G mutation. Conclusions: A novel variant at nt 3426 of mtDNA creates an ApaI site and can potentially cause a false-positive result for the presence of the A3243G mutation. Given the highly polymorphic nature of mtDNA, care must be exercised in choosing primers for restriction
endonuclease
-based diagnostic tests for point mutations, and confirmation of a mutation by an independent method is recommended.
...
PMID:A False-Positive Diagnosis for the Common MELAS (A3243G) Mutation Caused by a Novel Variant (A3426G) in the ND1 Gene of Mitochondria DNA. 1008 79
Mitochondrial DNA (mtDNA) mutations can cause rare forms of dystonia, but the role of mtDNA mutations in other types of dystonia is not well understood. We now report identification by sequencing, restriction
endonuclease
analyses, and clonal analyses of a heteroplasmic missense A to G base pair substitution at nucleotide position 3796 (A3796G) in the gene encoding the
ND1
subunit of mitochondrial complex I in a patient with adult-onset dystonia, spasticity, and core-type myopathy. The mutation converts a highly conserved threonine to an alanine. The same mutation subsequently was identified in 2 of 74 additional unrelated adult-onset dystonia patients. A muscle biopsy was obtained from 1 of these 2 subjects and this revealed abnormalities of electron transport chain (ETC) activities. The mutation was absent in 64 subjects with early onset dystonia, 82 normal controls, and 65 subjects with Parkinson's disease or multiple system atrophy. The A3796G mutation previously has been reported in 3 of 226 subjects from mitochondrial haplogroup H. Each of the 3 subjects in our study harboring the A3796G mutation was also from haplogroup H. However, a subgroup analysis of haplogroup H subjects from our study indicates that the A3796G mutation is significantly overrepresented among haplogroup H adult-onset dystonia subjects compared with haplogroup H controls (P<0.01). This difference remains significant even after excluding the index patient (P=0.04). These data suggest that, among haplogroup H subjects, the presence of the A3796G mutation increases the risk of developing adult-onset dystonia.
...
PMID:A heteroplasmic mitochondrial complex I gene mutation in adult-onset dystonia. 1275 9
The mitochondrial tRNA(Leu(UUR)) gene (MTTL) is a hot spot for pathogenic mutations that are associated with mitochondrial diseases with various clinical features. Among these mutations, the A3243G mutation was associated with various types of mitochondrial multisystem disorders, such as MIDD, MELAS, MERRF, PEO, hypertrophic cardiomyopathy, and a subtype of Leigh syndrome. We screened 128 Tunisian patients for the A3243G mutation in the mitochondrial tRNA(Leu(UUR)) gene. This screening was carried out using PCR-RFLP with the restriction
endonuclease
ApaI. None of the 128 patients or the 100 controls tested were found to carry the mitochondrial A3243G mutation in the tRNA(Leu(UUR)) gene in homoplasmic or heteroplasmic form. After direct sequencing of the entire mitochondrial tRNA(Leu(UUR)) gene and a part of the mitochondrial NADH dehydrogenase 1, we found neither mutations nor polymorphisms in the MTTL1 gene in the tested patients and controls, and we confirmed the absence of the A3243G mutation in this gene. We also found a T3396C transition in the
ND1
gene in one family with NSHL which was absent in the other patients and in 100 controls. Neither polymorphisms nor other mutations were found in the mitochondrial tRNA(Leu(UUR)) gene in the tested patients.
...
PMID:Mutational analysis of the mitochondrial tRNALeu(UUR) gene in Tunisian patients with mitochondrial diseases. 1733 24
Complex group I introns represent hallmarks of hexacoral mitochondrial genomes (mtDNAs). These intron elements are expected to influence the gene organization and gene expression. We sequenced the mitochondrial genome and transcriptome of Zoanthus sansibariscus and Palythoa heliodiscus, two zoantharian species (colonial anemones) representing different families within the suborder Brachycnemina. The circular and approximately 21kb mtDNAs contained two group I introns, one in ND5 and another in COI. The ND5-717 intron harbored two conventional mitochondrial genes (
ND1
and ND3) within its structure and revealed several conserved features compared to ND5-717 in sea anemones. The COI intron, however, was inserted at a unique location (after position 867), which was different from that in sea anemones (position 884) and stony corals (position 720). COI-867 contained a homing
endonuclease
gene (HEG) with remarkable features, including species-specific length variations and only one copy of the essential LAGLIDADG motif. Whereas transcriptome analysis indicated that all conventional mtDNA genes were expressed, HEG expression appeared significantly repressed. Finally, we identified absolutely conserved non-coding repeat motifs with antisense features and potential regulatory functions.
...
PMID:Zoantharian mitochondrial genomes contain unique complex group I introns and highly conserved intergenic regions. 2871 31
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