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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 locations of transfer RNA genes with respect to the restriction
endonuclease
cleavage map of Euglena gracilis Klebs, strain Z Pringsheim chloroplast DNA have been determined. Purified chloroplast tRNAs were treated with snake venom phosphodiesterase to remove the 3'-CCA terminus, and radioactively labeled by the action of Escherichia coli tRNA nucleotidyltransferase in the presence of [alpha-32P]
CTP
. Chloroplast DNA was treated individually and with combinations of the enzymes Bal I, Bam HI, Eco RI, Pst I, Pvu II, Sal I, and Xho I. The location of tRNA genes with respect to the cleavage sites for these enzymes was determined by hybridization of the 32P-labeled tRNAs to membrane filter blots of the chloroplast DNA restriction nuclease fragments following gel electrophoresis. The 145-kilobase pair genome was resolved into nine areas of strong tRNA hybridization, separated by areas of weak or no tRNA hybridization. The loci of tRNA genes are within the Eco RI fragments Eco A, B, G, H, I, J', P, Q, and V.
...
PMID:Euglena gracilis chloroplast transfer RNA transcription units. I. Physical map of the transfer RNA gene loci. 627 29
The specificity of transcription of Euglena gracilis Z chloroplast DNA by chloroplast DNA-dependent RNA polymerase in a transcriptionally active chromosome (Hallick, R.B., Lipper, C., Richards, O.C., and Rutter, W.J. (1976) Biochemistry 15, 3039-3045) has been studied. RNA molecules are both initiated and elongated in vitro. The RNA transcripts have been characterized as to their size, nuclease sensitivity, 5'-terminal oligonucleotides, and coding locus on the chloroplast genome. RNA labeled in vitro at the 5' end with [gamma-32P]ATP was digested with RNase T1, RNase A, and S1 nuclease. The resulting 5'-gamma-32P-oligonucleotides were fractionated by gel electrophoresis. In each case, one or two discrete products were obtained, consistent with initiation in vitro only at defined loci. RNA labeled in vitro with [alpha-32P]ATP or
CTP
has been hybridized to Southern (Southern, E.M. (1975) J. Mol. Biol. 98, 503-517) transfers of restriction
endonuclease
fragments of chloroplast DNA. The most abundant in vitro transcripts hybridize to chloroplast DNA fragments coding for 23 S, 16 S, and 5 S rRNAs. Only the coding strands of the rRNA genes are transcribed. Non-rDNA sequences of chloroplast DNA are also selectively transcribed but at much lower levels. The transcriptionally active chromosome has proved to be an ideal biochemical preparation for the study of selective transcription of cell organelle DNA.
...
PMID:Selective in vitro transcription of Euglena chloroplast ribosomal RNA genes by a transcriptionally active chromosome. 676 27
tRNA processing is a central event in mammalian mitochondrial gene expression. We have identified key enzymatic activities (ribonuclease P, precursor tRNA 3'-
endonuclease
, and ATP(
CTP
)-tRNA-specific nucleotidyltransferase) that are involved in HeLa cell mitochondrial tRNA maturation. Different mitochondrial tRNA precursors are cleaved precisely at the tRNA 5'- and 3'-ends in a homologous mitochondrial in vitro processing system. The cleavage at the 5'-end precedes that at the 3'-end, and the tRNAs are substrates for the specific CCA addition in the same in vitro system. Using a comparative enzymatic approach as well as biochemical and immunological techniques, we furthermore demonstrate that human cells contain two distinct enzymes that remove 5'-extensions from tRNA precursors, the previously characterized nuclear and the newly identified mitochondrial ribonuclease P. These two cellular isoenzymes have different substrate specificities that seem to be well adapted to their structurally disparate mitochondrial and nuclear tRNA substrates. This kind of approach may also help to understand the structural diversities and commonalities of tRNAs.
...
PMID:Human mitochondrial tRNA processing. 775 47
The bacteriophage lambda terminase is composed of two subunits, gpNu1 and gpA. In vitro, the holoenzyme is a site-specific
endonuclease
, helicase, ATPase, and can package lambda DNA into proheads. gpA possesses ATPase and helicase activities which are similar to those of the holoenzyme. Both terminase and gpA can hydrolyze a wide range of deoxyribo- and ribonucleoside triphosphates to inorganic phosphate and the corresponding diphosphate. Nucleoside diphosphates are not substrates for either protein. ATPase of both proteins is stimulated by double-stranded DNA. The ATPase of gpA is protein concentration-dependent, while that of terminase is not. Helicase activity of both proteins is not concentration-dependent, and requires a hydrolyzable triphosphate. ATP, dATP, and GTP supported helicase activity, while adenosine 5'-(beta, gamma-methylene)triphosphate, adenosine 5'-3-O-(thio)triphosphate, ADP,
CTP
, and UTP did not. The kinetic parameters of ATPase and helicase activities were similar for both proteins, but packaging with terminase was optimal only at a significantly higher level of ATP. Packaging was detectable at significant levels with
CTP
and UTP, but not with GTP. Packaging also differed from ATPase and helicase in the utilization of divalent metal cations and susceptibility to various inhibitors.
...
PMID:The in vitro ATPases of bacteriophage lambda terminase and its large subunit, gene product A. The relationship with their DNA helicase and packaging activities. 817 94
The cytidine triphosphate synthetase gene from Giardia intestinalis was cloned using a PCR-based strategy. A 519 bp PCR product was obtained from the amplification of genomic DNA using two oligonucleotides derived from the CTP synthetase amino acid consensus sequences DPYINVDPG and KTKPTQ. This product was used to probe restriction
endonuclease
digested genomic DNA and the respective plasmid mini-libraries. Two genomic clones were obtained one with a 3.6 kb HindIII DNA fragment, containing approximately three-quarters of the 5'-end of the synthetase gene and subsequently, a 5.8 kb PstI DNA fragment which contained the whole gene. The intronless gene has a 1863 bp open reading frame encoding 620 amino acids (M(r) of 68.3 kDa). A well conserved catalytic glutamine aminotransferase (GAT) domain was identified. In addition, three insert sequences were found which are not present in CTP synthetase from other species. Alignment and comparison of the deduced amino acid sequence relative to
CTP
synthetases from other species revealed a high degree of identity (34%) with a greater resemblance to prokaryotes than eukaryotes. The gene is located on chromosome 6 and the messenger RNA encoding it is estimated to be 1.9 kb. The coding region of G. intestinalis CTP synthetase was generated by PCR and subsequently cloned into the pQE30 vector for expression in E. coli. This construct yielded a soluble and enzymatically active recombinant protein which was purified by a Ni-NTA affinity column. The purified recombinant protein had a subunit molecular weight of 69.5 kDa and a native molecular weight of approximately 274 kDa. Kinetic studies of the partially purified recombinant G. intestinalis CTP synthetase gave apparent K(m) values of 0.1 mM and approximately 0.5 mM for the substrates UTP and L-glutamine respectively in accord with previously reported values for the native enzyme.
...
PMID:Isolation, characterization and expression of the gene encoding cytidine triphosphate synthetase from Giardia intestinalis. 881 94
To establish the most effective and reasonable mode of combining and administrering ara-C with other antileukemic agents in chemotherapy for acute leukemia, the action mechanisms of ara-C was investigated in terms of intracellular pharmacodynamics and the biochemical action mechanism of ara-C was investigated in leukemic cell. Rensonable methods of administering the agent was considered as follows. 1. A low level of ara-C in the incubation medium induced a higher concentration of ara-
CTP
in leukemic cells. Therefore, maintenance of even a low plasma ara-C level after ara-C therapy could enhance the antileukemic effect of the agent. 2. Ara-C activation was increased in the presence of 6MP by suppressing elevation of deaminase activity in the cell suspection medium. Therefore, administration of 6MP prior to ara-C therapy could enhance the antileukemic effect of the agent. 3. Ten micrograms/ml of ara-C, corresponding to intermediate dose ara-C therapy, induced rapid
endonuclease
activation, DNA ladder fragmentation and subsequent apoptosis in large numbers of leukemic cells, suggesting that intermediate dose ara-C therapy is effective in reducing residual leukemic cells after therapy. 4. Blood transfusion for patients with high grade anemia prior to bebenoyl ara-C therapy prolonged higher and longer plasma drug maintenance. 5. Flowcytometry of cell cycle progression of L1210 cells treated by ara-C and daunorubicin revealed that a combination of ara-C first and daunorubicin second was superior to the reverse sequential combination. These improvements in the mode of administering ara-C could provide better results following chemotherapy for leukemia.
...
PMID:Intracellular pharmacodynamics of ara-C and flowcytometric analysis of cell cycle progression in leukemia chemotherapy. 920 53
The adeno-associated virus (AAV) nonstructural proteins Rep68 and Rep78 are site-specific DNA binding proteins, ATP-dependent site-specific endonucleases, helicases, and ATPases. These biochemical activities are required for viral DNA replication and control of viral gene expression. In this study, we characterized the biochemical properties of the helicase and ATPase activities of homogeneously pure Rep68. The enzyme exists as a monomer in solution at the concentrations used in this study (<380 nM), as judged by its mobility in sucrose density gradients. Using a primed single-stranded (ss) circular M13 substrate, the helicase activity had an optimum pH of 7 to 7.5, an optimum temperature of 45 degreesC, and an optimal divalent-cation concentration of 5 mM MgCl2. Several nucleoside triphosphates could serve as cofactors for Rep68 helicase activity, and the order of preference was ATP = GTP >
CTP
= dATP > UTP > dGTP. The Km values for ATP in both the DNA helicase reaction and the site-specific trs
endonuclease
reaction were essentially the same, approximately 180 microM. Both reactions were sigmoidal with respect to ATP concentration, suggesting that a dimer or higher-order multimer of Rep68 is necessary for both DNA helicase activity and terminal resolution site (trs) nicking activity. Furthermore, when the enzyme itself was titrated in the trs
endonuclease
and ATPase reactions, both activities were second order with respect to enzyme concentration. This suggests that a dimer of Rep68 is the active form for both the ATPase and nicking activities. In contrast, DNA helicase activity was linear with respect to enzyme concentration. When bound to ssDNA, the enzyme unwound the DNA in the 3'-to-5' direction. DNA unwinding occurred at a rate of approximately 345 bp per min per monomeric enzyme molecule. The ATP turnover rate was approximately 30 to 50 ATP molecules per min per enzyme molecule. Surprisingly, the presence of DNA was not required for ATPase activity. We estimated that Rep translocates processively for more than 1,300 bases before dissociating from its substrate in the absence of any accessory proteins. DNA helicase activity was not significantly stimulated by substrates that have the structure of a replication fork and contain either a 5' or 3' tail. Rep68 binds only to ssDNA, as judged by inhibition of the DNA helicase reaction with ss or double-stranded (ds) DNA. Consistent with this observation, no helicase activity was detected on blunt-ended ds oligonucleotide substrates unless they also contained an ss 3' tail. However, if a blunt-ended ds oligonucleotide contained the 22-bp Rep binding element sequence, Rep68 was capable of unwinding the substrate. This means that Rep68 can function both as a conventional helicase for strand displacement synthesis and as a terminal-repeat-unwinding protein which catalyzes the conversion of a duplex end to a hairpin primer. Thus, the properties of the Rep DNA helicase activity suggest that Rep is involved in all three of the key steps in AAV DNA replication: terminal resolution, reinitiation, and strand displacement.
...
PMID:Biochemical characterization of adeno-associated virus rep68 DNA helicase and ATPase activities. 988 64
To investigate the expression of
CTP
encoding gene in the methylotropic yeast, pichia pastoris and the possibility of
CTP
acting as an antifertility vaccine or anti-cancer vaccine, we strung two, three or four
CTP
cDNA to construct
CTP
polymeric cDNA in order to enhance the immunogenicity of the
CTP
. Then, the recombinant genes were subcloned into a pichia pastoris expression vector pPIC9K to construct pPIC9K-(hCGbeta-CTP37)n(n = 2,3,4). After identified by restriction
endonuclease
digestion and DNA sequencing, the recombinant vectors were linearized and transferred into GS115 by electroporation. The induced culture supernatant was precipitated by PEG6000 and the precipitate was washed by 75% alcohol. SDS-PAGE and RIA analysis suggested GS115 expressed the recombinant genes successfully and the recombinant protein had anti-hCG antibody binding activity. In addition, ANTHEPROT 4.3 software was used to analyze the protein structure of
CTP
quadrigeminum. We found that
CTP
quadrigeminum had similar secondary structure with hCGbeta, but the speciality of antigen better than that of the latter. Therefore, we conclude that this study prepared basic necessary data for developing antifertility vaccines or anticancer vaccines basing on hCGbeta--CTP37.
...
PMID:[Expression of HCGbeta-CTP polymeride by the methylotropic yeast, pichia pastoris and structure prediction of the expressed products]. 1601 Dec 49
A new Type III restriction
endonuclease
designated PstII has been purified from Providencia stuartii. PstII recognizes the hexanucleotide sequence 5'-CTGATG(N)(25-26/27-28)-3'. Endonuclease activity requires a substrate with two copies of the recognition site in head-to-head repeat and is dependent on a low level of ATP hydrolysis ( approximately 40 ATP/site/min). Cleavage occurs at just one of the two sites and results in a staggered cut 25-26 nt downstream of the top strand sequence to generate a two base 5'-protruding end. Methylation of the site occurs on one strand only at the first adenine of 5'-CATCAG-3'. Therefore, PstII has characteristic Type III restriction enzyme activity as exemplified by EcoPI or EcoP15I. Moreover, sequence asymmetry of the PstII recognition site in the T7 genome acts as an historical imprint of Type III restriction activity in vivo. In contrast to other Type I and III enzymes, PstII has a more relaxed nucleotide specificity and can cut DNA with GTP and
CTP
(but not UTP). We also demonstrate that PstII and EcoP15I cannot interact and cleave a DNA substrate suggesting that Type III enzymes must make specific protein-protein contacts to activate
endonuclease
activity.
...
PMID:Characterization of the Type III restriction endonuclease PstII from Providencia stuartii. 3162 30
Higher order chromatin degradation (HOCD) is a stepwise dismantling of the genome through the excision of chromatin loops and their oligomers at matrix attachment regions (MARs) during the early stages of programmed cell death. Although HOCD ultimately leads to the inactivation of the genome and cell death, a partial HOCD in cells receiving sublethal signals may result in the loss of genetic stability leading to neoplasia, degeneration, and aging. The present study was undertaken to determine the role of protein poly(ADP-ribosyl)ation in HOCD. Nuclei isolated from rat glioma C6 cells were able to carry poly(ADP-ribosyl)ation as assessed by the incorporation of (32)P-NAD(+) into TCA-insoluble fraction. Under the same experimental conditions, millimolar NAD(+) induced rapid HOCD in nuclei. However, while poly(ADP-ribosyl)ation was totally abrogated by specific inhibitor, benzamide, NAD(+)-induced HOCD was unaffected. Benzamide also failed to inhibit HOCD induced by H(2)O(2) exposure in intact cells. These results indicate that HOCD is not mediated through chromatin poly(ADP-ribosyl)ation, and that NAD(+) activates MAR-associated
endonuclease
or facilitates the access of the enzyme to DNA by other mechanisms. Furthermore, other nucleotides including NADP(+), ATP, UTP, GTP, and
CTP
were also found to induce HOCD in isolated nuclei indicating that HOCD is controlled by nucleotide-related ligands.
...
PMID:Nucleotides induce higher order chromatin degradation. 1631 10
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