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Target Concepts:
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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)
The aim of this study was to identify multicomponent complexes involved in kinetoplastid mitochondrial mRNA editing. Mitochondrial extracts from Trypanosoma brucei were fractionated on 10-30% glycerol gradients and assayed for RNAs and activities potentially involved in editing, including pre-edited mRNA, guide RNA (gRNA),
endonuclease
, terminal uridylyltransferase (TUTase), RNA ligase and gRNA-mRNA chimera-forming activities. These experiments suggest that two distinct editing complexes exist. Complex I (19S) consists of gRNA, TUTase, RNA ligase and chimera-forming activity. Complex II (35-40S) is composed of gRNA, preedited mRNA, RNA ligase and chimera-forming activity. These studies provide the first evidence that editing occurs in a multicomponent complex. The possible roles of
complex I
, complex II and RNA ligase in editing are discussed.
...
PMID:Native mRNA editing complexes from Trypanosoma brucei mitochondria. 133 May 37
In vitro studies of muscle mitochondrial metabolism in patients with mitochondrial myopathy have identified a variety of functional defects of the mitochondrial respiratory chain, predominantly affecting
complex I
(
NADH-CoQ reductase
) or complex III (ubiquinol-cytochrome c reductase) in adult cases. These two enzymes consist of approximately 36 subunits, eight of which are encoded by mitochondrial DNA (mtDNA). The increased incidence of maternal, as opposed to paternal, transmission in familial mitochondrial myopathy suggests that these disorders may be caused by mutations of mtDNA. Multiple restriction
endonuclease
analysis of leukocyte mtDNA from patients with the disease, and their relatives, showed no differences in cleavage patterns between affected and unaffected individuals in any single maternal line. When muscle mtDNA was studied, nine of 25 patients were found to have two populations of muscle mtDNA, one of which had deletions of up to 7 kilobases in length. These observations demonstrate that mtDNA heteroplasmy can occur in man and that human disease may be associated with defects of the mitochondrial genome.
...
PMID:Deletions of muscle mitochondrial DNA in patients with mitochondrial myopathies. 283 May 40
By using a band mobility shift assay, deoxyinosine 3'-
endonuclease
, an Escherichia coli enzyme which recognizes deoxyinosine, AP site, urea residue, and base mismatches in DNA, was shown to bind tightly to deoxyinosine-containing oligonucleotide duplexes. Two distinct protein-DNA complexes were observed, the faster migrating complex (
complex I
, Kd = 4 x 10(-9) M) contained one molecule of deoxyinosine 3'-
endonuclease
, while the slower migrating complex (complex II, Kd = 4 x 10(-7) M) contained two molecules of the protein bound to every molecule of duplex DNA. The endonucleolytic activity of deoxyinosine 3'-
endonuclease
paralleled the formation of the
complex I
. Interestingly, deoxyinosine 3'-
endonuclease
exhibited similar affinities for both the substrate and the nicked duplex product and thus remained bound to the DNA after the cleavage reaction. The formation of a stable complex required the presence of a duplex structure 5' to the deoxyinosine residue. DNase I footprinting revealed that deoxyinosine 3'-
endonuclease
protected 4-5 nucleotides 5' to the deoxyinosine, and when complex II was formed, at least 13 nucleotides 3' to deoxyinosine were protected. Based on these results, a model is proposed for the interaction of deoxyinosine 3'-
endonuclease
with DNA containing deoxyinosine.
...
PMID:Interaction of deoxyinosine 3'-endonuclease from Escherichia coli with DNA containing deoxyinosine. 749 77
One of the final steps in the assembly of bacteriophage lambda is the excision of a single genome from a concatemeric DNA precursor and insertion of this monomer into a preformed capsid. Terminase enzymes are common to all of the double-stranded DNA phages, and in lambda this enzyme is responsible for both excision of a genome monomer from the concatemer and its insertion into the pro-capsid. We have previously demonstrated that the
endonuclease
activity of lambda terminase (cos-cleavage) was stoichiometric with enzyme and postulated that this was due to formation of a stable, postcleavage enzyme.DNA intermediate (complex I) (Tomka & Catalano, 1993b). Bacteriophage lambda gpFI protein is required for efficient assembly of the virus, and current models suggest that this protein increases the rate of pro-capsid binding to
complex I
. We show here that gpFI markedly stimulates cos-cleavage by lambda terminase, even in the absence of viral pro-capsids. Importantly, the observed increase in nicking activity did not result from an increase in the rate of cos-cleavage, but rather by an increase in turnover by the enzyme. These data suggest that gpFI destabilizes
complex I
, thus allowing terminase release from cos and catalytic turnover by the enzyme. The implications of these results with respect to terminase assembly onto viral DNA, nicking of the duplex, and subsequent translocation during packaging are discussed.
...
PMID:Role of gpFI protein in DNA packaging by bacteriophage lambda. 763 76
Mammalian heart mitochondria (MT) contain a potent Mg(2+)-dependent DNA endonuclease that becomes soluble once isolated mitochondria are disrupted using detergent. The level of this
endonuclease
was previously found to be markedly elevated in adult rat heart compared to other adult rat tissues. Among tissues, the level of the MT
endonuclease
does not appear to be correlated with the rate of MT DNA replication but rather with the rate of oxidative metabolism [Houmiel, K.L., Gerschenson, M. and Low, R.L., 1991. Biochimica Biophysica Acta 1079: 197-202]. In the present study, the level of the
endonuclease
has been quantitated both during rat cardiac development, from gestational day 18 through adulthood, and in cultured rat heart myoblasts. Surprisingly, the specific activity of the MT
endonuclease
in fetal and newborn mitochondria is high. The values are greater than 50% of that seen in the adult even though the mitochondria at this period of heart development are few and structurally disorganized. Remarkably, there is a burst of
endonuclease
activity at day 2 which accompanies a similar, transient elevation of respiratory
complex I
and IV activities. At later times, the
endonuclease
activity gradually increases until adulthood and correlates with steady increases in MT DNA and DNA polymerase-gamma. In cultured myoblasts, the level of the
endonuclease
increases about seven-fold as the growing cells reach confluency and differentiate into myotubes. These variations in the specific activity of the
endonuclease
, when considered along with other properties of the enzyme suggest that the
endonuclease
may serve a role in the removal of oxidative damage in MT DNA incurred from respiration.
...
PMID:Levels of the mitochondrial endonuclease during rat cardiac development implicate a role for the enzyme in repair of oxidative damage in mitochondrial DNA. 819 67
Phage lambda, like a number of other large DNA bacteriophages and the herpesviruses, produces concatemeric DNA during DNA replication. The concatemeric DNA is processed to produce unit-length, virion DNA by cutting at specific sites along the concatemer. DNA cutting is co-ordinated with DNA packaging, the process of translocation of the cut DNA into the preformed capsid precursor, the prohead. A key player in the lambda DNA packaging process is the phage-encoded enzyme terminase, which is involved in (i) recognition of the concatemeric lambda DNA; (ii) initiation of packaging, which includes the introduction of staggered nicks at cosN to generate the cohesive ends of virion DNA and the binding of the prohead; (iii) DNA packaging, possibly including the ATP-driven DNA translocation; and (iv) following translocation, the cutting of the terminal cosN to complete DNA packaging. To one side of cosN is the site cosB, which plays a role in the initiation of packaging; along with ATP, cosB stimulates the efficiency and adds fidelity to the
endonuclease
activity of terminase in cutting cosN. cosB is essential for the formation of a post-cleavage complex with terminase,
complex I
, that binds the prohead, forming a ternary assembly, complex II. Terminase interacts with cosN through its large subunit, gpA, and the small terminase subunit, gpNu1, interacts with cosB. Packaging follows complex II formation. cosN is flanked on the other side by the site cosQ, which is needed for termination, but not initiation, of DNA packaging. cosQ is required for cutting of the second cosN, i.e. the cosN at which termination occurs. DNA packaging in lambda has aspects that differ from other lambda DNA transactions. Unlike the site-specific recombination system of lambda, for DNA packaging the initial site-specific protein assemblage gives way to a mobile, translocating complex, and unlike the DNA replication system of lambda, the same protein machinery is used for both initiation and translocation during lambda DNA packaging.
...
PMID:Virus DNA packaging: the strategy used by phage lambda. 857 44
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
A critical step in the assembly of bacteriophage lambda is the excision of a single genome from a concatemeric DNA precursor and insertion of genomic DNA into an empty viral capsid. DNA packaging is mediated by the lambda proteins gpNu1 and gpA, which form an enzyme complex known as terminase. Initiation of the packaging process requires assembly of the terminase subunits onto cos, the lambda DNA packaging sequence, and nicking of the duplex, thus forming the 12-base-pair "sticky" ends of the mature genome. We have utilized gel-retardation techniques to examine the interaction of gpNu1, gpA, and terminase holoenzyme with DNA. Our data demonstrate that gpNu1 interacts specifically with cos-containing DNA, forming three gel-retarded complexes. Similarly, the larger gpA subunit binds to DNA, forming two complexes; however, this subunit forms similar complexes with DNA substrates of random sequence. All of the nucleoprotein complexes examined are disrupted by elevated concentrations of NaCl and we suggest that altered DNA binding is responsible for the extreme salt sensitivity of the
endonuclease
activity of the enzyme [Tomka, M. A., & Catalano, C. E. (1993) J. Biol. Chem. 268, 3056-3065]. DNA binding by each subunit is strongly affected by the presence of the other, with 10- and 3-fold increases in the affinity of gpNu1 and gpA, respectively, for DNA. Moreover, our data suggest that the terminase subunits interact in solution prior to DNA binding. Finally, we provide evidence that
complex I
, the first stable intermediate in the packaging pathway, is composed of the mature left genome end bound to the terminase subunits and demonstrate that dissociation of the complex is quite slow (t1/2 > 8 h). The significance of these data with respect to terminase-mediated genome packaging is discussed.
...
PMID:Assembly of a nucleoprotein complex required for DNA packaging by bacteriophage lambda. 906 1
The organization of the mitochondrial maxicircle genome of Trypanosoma brucei is unique in the close packing of the mRNA genes. For many of them, the 5' and 3' ends of adjacent transcripts overlap and formation of the proper 3' or 5' end can eliminate a portion of the coding sequence of the adjacent gene. Large, polycistronic transcripts have been detected. suggesting that mechanisms for precise cleavages at both 5' and 3' gene boundaries must exist. However, no common sequences near the ends of the mRNAs that could be candidates for control regions have been detected. In addition, nothing is known about how RNA editing interacts with and affects 5' and 3' processing and/or polyadenylation. Edited precursor transcripts have been detected, indicating that editing complexes can assemble prior to transcript cleavage. Because editing often initiates near the 3' end of the mRNA, the assembly of an editing complex in this region may influence the cleavage selection process. In order to determine the extent that RNA editing and 3' end-processing interact, RNAs were analyzed to determine the extent of editing in precursor RNAs and to determine if unedited transcripts can be cleaved and polyadenylated. Two overlapping RNA junctions were analyzed; the junction between
NADH dehydrogenase
(ND) subunit 7 and cytochrome oxidase (CO) subunit III, and the junction between CO subunit II and maxicircle unidentified reading frame (MURF) II. For both of these RNAs, editing affects restriction
endonuclease
recognition sequences, allowing us to analyze editing patterns by differential restriction digests. These analyses suggest that when the gRNA is supplied in trans, RNA editing and cleavage/polyadenylation are independent events and while they may influence one another, one event is not dependent on the other. Conversely, for the COII transcript, where the gRNA is located at the 3' end of the mRNA and appears to be supplied in cis, edited precursors were not detected. This suggests a requirement for a precise intramolecular interaction for COII editing that cannot form prior to 3' end-maturation.
...
PMID:Mitochondrial mRNA 3' cleavage/polyadenylation and RNA editing in Trypanosoma brucei are independent events. 949 34
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
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