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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 stereochemical course of the reaction catalyzed by the EcoRV restriction endonuclease has been determined. This endonuclease recognizes GATATC sequence and cuts between the central T and dA bases. The Rp isomer of d(GACGATsATCGTC) (this dodecamer contains a phosphorothioate rather than the usual phosphate group between the central T and dA residues, indicated by the s) was a substrate for the endonuclease. Performing this reaction in H2 18O gave [18O]dps(ATCGTC) (a pentamer containing an 18O-labeled 5'-phosphorothioate) which was converted to [18O]dAMPS with nuclease P1. This deoxynucleoside 5'-[18O]phosphorothioate was stereospecifically converted to [18O]dATP alpha S with adenylate kinase and pyruvate kinase [Brody, R. S., & Frey, P. A. (1981) Biochemistry 20, 1245-1251]. Analysis of the position of the 18O in this product by 31P NMR spectroscopy showed that it was in a bridging position between the alpha- and beta-phosphorus atoms. This indicates that the EcoRV hydrolysis proceeds with inversion of configuration at phosphorus. The simplest interpretation is that the mechanism of this endonuclease involves a direct in-line attack at phosphorus by H2O with a trigonal bipyramidal transition state. A covalent enzyme oligodeoxynucleotide species can be discounted as an intermediate. An identical result has been previously observed with the EcoR1 endonuclease [Connolly, B. A., Eckstein, F., & Pingoud, A. (1984) J. Biol. Chem. 259, 10760-10763]. X-ray crystallography has shown that both of these endonucleases contain a conserved array of amino acids at their active sites. Possible mechanistic roles for these conserved amino acids in the light of the stereochemical findings are discussed.
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PMID:Stereochemical outcome of the hydrolysis reaction catalyzed by the EcoRV restriction endonuclease. 151 Sep 72

The self-complementary DNA decamer duplex d(CTGAATTCAG)2 and its modified counterpart d(CTGA[2AP]TTCAG)2, where the innermost adenine (6-aminopurine) has been replaced with the fluorescent analogue 2-aminopurine (2AP), have been studied by fluorescence and NMR spectroscopy and simulated by molecular dynamics. Both decamers are recognized and cleaved by the EcoRI restriction endonuclease. 2D NMR results show that both decamers have a standard B-type conformation below 20 degrees C, though a disturbance exists to the 5' side of the 2AP site which may originate from increased local mobility. The fluorescence and fluorescence anisotropy decays of both decamers, as well as the one containing 2AP in only one chain, were studied as a function of temperature. The data show that the 2AP base exists in a temperature-dependent distribution of states and shows rapid motions, suggesting interconversion among these states on a time scale of about 10(-10) s. The integrated fluorescence of the decamer with 2AP in both chains shows a large increase around the helix melting temperature whereas the decamer with one 2AP shows only a mild increase, showing that the mixed helix has a different structural transition as sensed by the 2AP base. The data suggest a model of conformational states which have distinct fluorescence decay times. The various states may differ in the degree of base stacking. Fluctuations in the degree of stacking of the A or 2AP base are supported by molecular dynamics simulations, which additionally show that the 2AP-T or A-T base pair hydrogen bonds remain intact during these large motions.
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PMID:Structure and dynamics of a fluorescent DNA oligomer containing the EcoRI recognition sequence: fluorescence, molecular dynamics, and NMR studies. 260 43

Proton and nitrogen signals of the guanidinium amines in [N eta 1, N eta 2 15N Arg]Taq I endonuclease were observed using isotope filtered experiments and proton detected 1H[15N] heterocorrelated two dimensional NMR spectroscopy. These rapidly exchanging protons could be detected in the free enzyme only at pH 4.5; at pH 8.5, no signals were measured after extensive signal averaging. Addition of deoxyribonucleotide oligomers resulted in the appearance of two groups of signals at about 6.8 and 7.5 ppm. Since these signals are independent of the presence of cognate sequence or Mg2+, it is assumed they represent nonspecific arginyl-DNA interactions. This labeling/NMR approach provides a new method for investigating the role of arginine in protein-DNA interactions.
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PMID:Observation of arginyl-deoxyoligonucleotide interactions in Taq I endonuclease by detection of specific 1H NMR signals from 140kD [N eta 1, N eta 2, 15N Arg]Taq I/oligomer complexes. 267 59

Studies of 1H NMR selective saturation recovery were performed to determine the imino proton exchange with solvent water of the base pairs in the Eco RI endonuclease recognition sequence GAATTC, placed at the center of self-complementary decamer and dodecamer oligonucleotides. In one oligonucleotide the innermost adenine was replaced by the fluorescent base analogue 2-aminopurine (2AP). From the measurements at different concentrations of TRIS buffer acting as proton exchange catalyst, base pair lifetimes were evaluated. The results at 25 degrees show that the AT base pairs have lifetimes of the order of a few ms, whereas the surrounding GC base pairs in a dodecamer have lifetimes of about 100 ms. The (2AP)T base pair has a shorter lifetime than the corresponding AT base pair. The temperature dependent optical absorption, and for the 2AP containing oligonucleotide fluorescence, were used to study the single strand-duplex equilibrium of the decamers. The results indicate that NMR and the optical techniques, although applied at very different concentrations, monitor the same conformational transition of the oligonucleotide.
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PMID:Base pair opening dynamics of a 2-aminopurine substituted Eco RI restriction sequence and its unsubstituted counterpart in oligonucleotides. 282 24

Protected deoxynucleoside 3'-O-ethyl-N,N-diisopropylphosphoramidite reagents were prepared for use in the automated synthesis of ethyl phosphotriester (Et) modified oligonucleotides. The title diastereomers were separated by reversed-phase HPLC, and chirality at phosphorus was assigned by an improved configurational correlation scheme that was verified by NMR spectroscopic studies (accompanying paper, Part VI). This generally applicable correlation scheme involved enzymatic digestions of each diastereomer to give the corresponding diastereomer of d[A(Et)T]; phosphite triester sulfurization to obtain diastereomeric O-ethyl phosphorothioates, d[AS(Et)T], which were separated by HPLC for stereoretentive oxidation with H2O2 to give d[A(Et)T], and stereoretentive de-ethylation with PhSH-Et3N to give diastereomeric phosphorothioates, d[AST], whose configurations at phosphorus had been assigned previously. Neither the Rp-Rp nor Sp-Sp duplex, (d[GGAA(Et)TTCC])2, was cleaved by EcoRI endonuclease under conditions that led to cleavage of both the unmodified duplex, [d(GGAATTCC)]2, and the mixture of diastereomeric phosphorothioate-modified duplexes, [d(GGAASTTCC)]2. Cleavage of the latter substrates was Sp-selective.
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PMID:Alkyl phosphotriester modified oligodeoxyribonucleotides. V. Synthesis and absolute configuration of Rp and Sp diastereomers of an ethyl phosphotriester (Et) modified EcoRI recognition sequence, d[GGAA(Et)TTCC]. A synthetic approach to regio- and stereospecific ethylation-interference studies. 302 May 14

A homologous series of spermidine analogs, with defined abilities to replace the natural polyamine in supporting cell growth, was examined for its influence on the structure of supercoiled, aggregated DNA and on the ability of the DNA aggregates to act as substrates for various enzymes. The concentration of amine necessary to aggregate negatively supercoiled Col E1 DNA was progressively increased as the diaminobutane moiety of spermidine was extended beyond 5 methylene groups. 1H- and 31P-NMR spectroscopy suggested that less rigid DNA aggregates were formed by spermidine analogs than by spermidine itself. Spermidine and its analogs differentially modulated the activities of bacterial and mammalian type I topoisomerases and EcoRI restriction endonuclease on aggregated DNA in a manner reminiscent of the abilities of the amines to stimulate cell growth. When DNA was not aggregated, the influence of the various amines on these reactions was almost identical. These results are discussed in relation to the structures of the DNA aggregates in the presence of the various triamines.
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PMID:Aggregation of DNA by analogs of spermidine; enzymatic and structural studies. 303 4

Organic synthesis and recombinant DNA techniques have been used to situate a single 1,N6-ethenoadenine (epsilon Ade) DNA adduct at an amber codon in the genome of an M13mp19 phage derivative. The deoxyhexanucleotide d[GCT(epsilon A)GC] was chemically synthesized by the phosphotriester method. Mild nonaqueous conditions were employed for deprotection because of the unstable nature of the epsilon Ade adduct in aqueous basic milieu. Physical studies involving fluorescence, circular dichroism, and 1H NMR indicated epsilon Ade to be very efficiently stacked in the hexamer, especially with the 5'-thymine. Melting profile and circular dichroism studies provided evidence of the loss of base-pairing capabilities attendant with formation of the etheno ring. The modified hexanucleotide was incorporated into a six-base gap formed in the genome of an M13mp19 insertion mutant; the latter was constructed by blunt-end ligation of d(GCTAGC) in the center of the unique SmaI site of M13mp19. Phage of the insertion mutant, M13mp19-NheI, produced light blue plaques on SupE strains because of the introduced amber codon. Formation of a hybrid between the single-strand DNA (plus strand) of M13mp19-NheI with SmaI-linearized M13mp19 replicative form produced a heteroduplex with a six-base gap in the minus strand. The modified hexamer [5'-32P]d-[GCT(epsilon A)GC], after 5'-phosphorylation, was ligated into this gap by using bacteriophage T4 DNA ligase to generate a singly adducted genome with epsilon Ade at minus strand position 6274. Introduction of the radiolabel provided a useful marker for characterization of the singly adducted genome, and indeed the label appeared in the anticipated fragments when digested by several restriction endonucleases. Evidence that ligation occurred on both 5' and 3' sides of the oligonucleotide also was obtained. The adduct was introduced into a unique NheI site, and it was observed that this restriction endonuclease was able to cleave the adducted genome, albeit at a lower rate compared to unmodified DNA. The M13mp19-NheI genome containing epsilon Ade will be used as a probe for studying mutagenesis and repair of this DNA adduct in Escherichia coli.
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PMID:Deoxyhexanucleotide containing a vinyl chloride induced DNA lesion, 1,N6-ethenoadenine: synthesis, physical characterization, and incorporation into a duplex bacteriophage M13 genome as part of an amber codon. 331 93

Type II restriction endonucleases have attracted attention for two main reasons: firstly, their many applications in the dissection of DNA and in the construction of novel DNA molecules; secondly, as systems for studying the interactions of proteins with specific DNA sequences. With respect to the latter, the EcoR I restriction endonuclease has been examined in greater depth than any other type II enzyme [1-3]. However, the EcoR I enzyme has a major disadvantage as a system for studying DNA-protein interactions: the protein has a remarkably low solubility. The solutions in which EcoR I shows maximal activity, and also affinity for its recognition site, are saturated at less than 0.5 microM of this protein [4]. Consequently, many techniques that have been developed to study protein-ligand interactions but which require high concentrations of the protein in solution, such as NMR spectroscopy, cannot be used on EcoR I. But this drawback does not apply to all type II restriction enzymes. A different enzyme, the EcoR V restriction endonuclease [5-7], has special advantages as a system for studying DNA-protein interactions. In particular, this is the only type II restriction enzyme (apart from EcoR I [3]) for which crystals of the protein have been reported [7].
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PMID:The EcoR V restriction endonuclease. 333 65

The synthesis and characterization of an octanucleotide, d(GGsAATTCC), containing the recognition sequence of the EcoRI restriction endonuclease with a phosphorothioate internucleotidic linkage at the cleavage site are described. Two approaches for the synthesis of the RP and SP diastereomers of this octamer by the phosphite method are presented. The first consists of the addition of sulfur instead of H2O to the phosphite at the appropriate position during chain elongation. This method results in a mixture of diastereomers that can be separated by high-performance liquid chromatography after 5'-terminal phosphorylation. The second uses the presynthesized and diastereomerically pure dinucleoside phosphorothioate d[Gp(S)A] for the addition to the growing oligonucleotide chain as a block. The products are characterized by digestion with nuclease P1, fast atom bombardment mass spectrometry, 31P NMR spectroscopy, and conversion to d(GGAATTCC) by desulfurization with iodine. Only the RP diastereomers of d(GGsAATTCC) and its 5'-phosphorylated derivative are cleaved by EcoRI endonuclease. The rate of hydrolysis is slower than that of the unmodified octamer. The phosphorothioate octamer will be useful for the determination of the stereochemical course of the EcoRI-catalyzed reaction.
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PMID:Synthesis and characterization of an octanucleotide containing the EcoRI recognition sequence with a phosphorothioate group at the cleavage site. 608 94

The restriction endonuclease EcoRI hydrolyzes the Rp diastereomer of d(pGGsAATTCC), an analogue of d(pGGAATTCC) containing a chiral phosphorothioate group at the cleavage site between the deoxyguanosine and the deoxyadenosine residues (Connolly, B.A., Potter, B.V.L., Eckstein, F., Pingoud, A., and Grotjahn, L. (1984) Biochemistry 23, 3343-3453). Performing the reaction in H2(18)O leads to d(pGG) and the hexanucleotide d([18O, S]pAATTCC) which has an 18O-containing phosphorothioate group at the 5' terminus. Further hydrolysis of this hexamer with nuclease P1 yields deoxyadenosine 5'-O-[18O]phosphorothioate which can be stereospecifically phosphorylated with adenylate kinase and pyruvate kinase to give Sp-[18O] deoxyadenosine 5'-O-(1-thiotriphosphate). 31P NMR spectroscopy shows the oxygen-18 in this compound to be in a bridging position between the alpha- and beta-phosphorus atoms. Thus, the hydrolysis reaction catalyzed by EcoRI proceeds with inversion of configuration at phosphorus. This result is compatible with a direct enzyme-catalyzed nucleophilic attack of H2O at phosphorus without involvement of a covalent enzyme intermediate.
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PMID:The stereochemical course of the restriction endonuclease EcoRI-catalyzed reaction. 608 16


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