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)

The x-ray structure of the EcoRI endonuclease-DNA complex (3) suggests that hydrogen bonds between amino acids, glutamic acid 144, arginine 145, and arginine 200, and major groove base moieties are the molecular determinants of specificity. We have investigated residue 144 using aspartate and glutamine substitutions introduced by site-directed mutagenesis. Substitution with glutamine results in a null phenotype (at least a 2000-fold reduction in activity). On the other hand, the aspartic acid mutant (ED144) retained in vivo activity. Substrate binding and catalytic studies were done with purified ED144 enzyme. The affinity of the ED144 enzyme for the canonical sequence 5'-GAATTC-3' is about 340-fold less than the wild-type (WT) enzyme, while its affinity for nonspecific DNA is about 50 times greater. The ED144 enzyme cleaves one strand in the EcoRI site in plasmid pBR322 with a kcat/Km similar to WT. In contrast to the WT enzyme, the ED144 enzyme dissociates after the first strand cleavage. Partitioning between cleavage and dissociation at the first and second cleavage steps for the ED144 enzyme is extremely salt-sensitive. The altered partitioning results largely from a destabilization of the enzyme-DNA complex, particularly the enzyme-nicked DNA complex, with only small changes in the respective cleavage rates. The hydrogen bonds of Glu-144 are critical, they appear to act cooperatively with other specificity contacts to stabilize the enzyme-DNA complex.
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PMID:Probing the role of glutamic acid 144 in the EcoRI endonuclease using aspartic acid and glutamine replacements. 225 11

A complete set of dA and T analogues designed for the study of protein DNA interactions has been prepared. These modified bases have been designed by considering the groups on the dA and T bases that are accessible to proteins when these bases are incorporated into double-helical B-DNA [Seeman, N. C., Rosenberg, J. M., & Rich, A. (1976) Proc. Natl. Acad. Sci. U.S.A. 73, 804-808]. Each of the positions on the two bases, having the potential to interact with proteins, have been subject to nondisruptive, conservative change. Typically a particular group (e.g., the 6-NH2 of dA or the 5-CH3 of T) has been replaced with a hydrogen atom. Occasionally keto groups (the 2- and 4-keto oxygen atoms of T) have been replaced with sulfur. The base set has been incorporated into the self-complementary dodecamer d(GACGATATCGTC) at the central d(ATAT) sequence. Melting temperature determination shows that the modified bases do not destabilize the double helix. Additionally, circular dichroism spectroscopy shows that almost all the altered bases have very little effect on overall oligodeoxynucleotide conformation and that most of the modified oligomers have a B-DNA type structure. d(GATATC) is the recognition sequence for the EcoRV restriction modification system. Initial rate measurements (at a single oligodeoxynucleotide concentration of 20 microM) have been carried out with both the EcoRV restriction endonuclease and modification methylase. This has enabled a preliminary identification of the groups of the dA and T bases within the d(GATATC) sequence that make important contacts to both proteins.
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PMID:Incorporation of a complete set of deoxyadenosine and thymidine analogues suitable for the study of protein nucleic acid interactions into oligodeoxynucleotides. Application to the EcoRV restriction endonuclease and modification methylase. 227 27

A set of dA and T analogues suitable for the study of protein DNA interactions have been incorporated into the central d(ATAT) sequence within d(GACGATATCGTC). The individual analogues have one potential protein contact (either a hydrogen-bonding group or a CH3 group capable of a van der Waals interaction) deleted. In general, the modified bases do not perturb the overall structure of the dodecamer, enabling results obtained to be simply interpreted in terms of loss of protein DNA contacts. We have used the modified oligodeoxynucleotide set to study the recognition of DNA by the EcoRV restriction endonuclease [recognition sequence d(GATATC)]. The kcat and Km values for the set have been determined, and a comparison with results seen with the parent oligodeoxynucleotide (containing no modified bases) has been carried out. Three classes of results are seen. First, some analogues lead to no change in kinetic parameters, meaning no enzyme contact at the altered site. Second (this is seen for most of the modified oligodeoxynucleotides), a drop in the kcat/Km ratio relative to the parent is observed. This comes mainly from a decrease in kcat, implying that the endonuclease uses the interaction under study to lower the transition-state barrier rather than to bind the substrate. Analyses of these results show that the drop in kcat/Km is what would be expected for the simple loss of a hydrogen bond or a CH3 contact between the enzyme and the oligodeoxynucleotide. This implies a contact of these types at these sites.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Interaction of the EcoRV restriction endonuclease with the deoxyadenosine and thymidine bases in its recognition hexamer d(GATATC). 227 28

A new method is described for detecting DNA double-strand breaks (DSBs) that utilizes asymmetric field inversion gel electrophoresis (AFIGE). DNA purified from cells in agarose plugs is subjected to AFIGE and DNA breakage quantitated by the fraction of DNA released from the plug. To test the specificity of the method for DNA DSBs, purified DNA in agarose plugs was treated for increasing times with restriction endonuclease, XhoI. After an initial time period, the fraction of DNA released increased in direct proportion to time. This correlates with the expected response for a randomly broken DNA molecule. In contrast, treatment with the single-strand breaking agent, hydrogen peroxide, over a 1000-fold range produced no release of DNA from the plug. Thus the assay appears to be specific for DNA DSBs and was used to measure DNA breaks induced by gamma radiation. Purified DNA, irradiated in agarose plugs, exhibited a log-linear dose response up to doses that release greater than 90% DNA from the plug. When live cells were irradiated in agarose, a similar linear dose response was observed up to 40 Gy and a significant signal as low as 2.5 Gy. Also in live cells, a threefold lower percentage of DNA was released from the plug over the same dose range. However, less DNA per gray is released at doses above 40 Gy and may reflect a crosslinking effect produced by the irradiation of DNA in live cells. DNA which was "pulse-labeled" was used to test the effect of DNA replication on the ability of AFIGE to detect DNA DSBs. Replicating DNA irradiated in the cell or after purification exhibited a reduced rate of release from the plug per dose of irradiation. Overall, the above results indicate that AFIGE is a sensitive method for detecting DSBs in DNA.
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PMID:Asymmetric field inversion gel electrophoresis: a new method for detecting DNA double-strand breaks in mammalian cells. 230 38

Escherichia coli deficient in exonuclease III (xth gene mutants) are known to be hypersensitive to hydrogen peroxide. We now show that such mutants accumulate many more DNA single-strand breaks than do wild-type bacteria upon exposure to H2O2. DNA isolated from H2O2-treated xth- cells contains strand breaks that do not efficiently support synthesis by E. coli DNA polymerase I, indicating the presence of blocking groups at the DNA 3' termini. Purified E. coli exonuclease III activates this blocked DNA to allow substantial synthesis by polymerase I in vitro. Another E. coli enzyme, endonuclease IV, also activates primers for DNA polymerase. Exonuclease III accounts for greater than 95% of the total activity in E. coli crude extracts for removal of 3'-terminal phosphoglycolaldehyde esters from model DNA substrates. Purified exonuclease III and endonuclease IV can each efficiently remove 3'-terminal phosphoglycolaldehyde in vitro. An important physiological function for exonuclease III is thus the activation of blocked 3' ends for DNA repair synthesis. Endonuclease IV can also initiate the repair of ruptured 3'-deoxyribose in DNA.
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PMID:Exonuclease III and endonuclease IV remove 3' blocks from DNA synthesis primers in H2O2-damaged Escherichia coli. 242 16

Escherichia coli treated with nontoxic levels of the superoxide-generating redox-cycling agents menadione and paraquat showed dramatic changes in protein composition as monitored by two-dimensional gel analysis. The distribution of proteins synthesized after treatment with these agents overlapped significantly with that seen after hydrogen peroxide treatment, and it included all the proteins in the oxyR regulon. The redox-cycling agents also elicited the synthesis of at least 33 other proteins that were not seen with hydrogen peroxide, including three heat shock proteins, the Mn-containing superoxide dismutase, the DNA repair protein endonuclease IV, and glucose-6-phosphate dehydrogenase. At least some of these redox-inducible proteins appear to be part of a specific response to intracellular superoxide. E. coli is thus equipped with a network of inducible responses against oxidative damage, controlled in multiple regulatory pathways.
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PMID:A global response induced in Escherichia coli by redox-cycling agents overlaps with that induced by peroxide stress. 247 81

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

The arginine at position 200 of EcoRI endonuclease is thought to make two hydrogen bonds to the guanine of the sequence GAATTC and thus be an important determinant of sequence discrimination. Arg-200 was replaced by each of the other 19 naturally occurring amino acids, and the mutant endonucleases were assessed for activities in vivo and in vitro. The mutant endonuclease with lysine at position 200 exhibits the most in vivo activity of all the position 200 mutants, although the in vitro activity is less than 1/100th of wild-type activity. Five other mutants show more drastically reduced levels of in vivo activity (Cys, Pro, Val, Ser, and Trp). The Cys, Val, and Ser mutant enzymes appear to have in vivo activity which is specific for the wild-type canonical site despite the loss of hydrogen bonding potential at position 200. The Pro and Trp mutants retain in vivo activity which is independent of the presence of the EcoRI methylase. In crude cell lysates, only the Cys mutant shows a very low level of in vitro activity. None of the mutant enzymes show a preference for alternative sites in assays in vitro. The implications of these results are discussed.
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PMID:Determinants of EcoRI endonuclease sequence discrimination. 265 23

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

Oligodeoxynucleotides have been prepared which contain changes in the functional group pattern present in the EcoRV recognition site d(GATATC). These modifications involve the deletion of specific functional groups or the reversal of the relative positions of functional groups within the canonical six base pair recognition site. The duplex stability of these modified oligodeoxynucleotides has been assessed by determining the thermodynamic parameters characterizing helix formation. Steady-state kinetic parameters have been used to characterize the interaction of the modified oligodeoxynucleotides with the EcoRV endonuclease. The enzyme is very sensitive to the deletion of either of the adenine amino or thymine methyl groups, or the reversal of the relative positions of the adenine amino group and thymine carboxy group which form an interstrand hydrogen bond in the major groove of the B-DNA helix. Conversely, deletion of the guanine amino group had only minimal effects upon the measured kinetic parameters. Deletion of the exocyclic amino group from the "inner" dA-dT base pair resulted in the fragment which interacted with the enzyme on the basis of observed inhibition experiments but was not cleaved. The results suggest that the endonuclease interacts with its recognition sequence via contacts in the major groove of the B-DNA helix and that both hydrogen bonding to the adenine amino groups and also hydrophobic interactions with the thymine methyl groups are involved.
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PMID:Effects of functional group changes in the EcoRV recognition site on the cleavage reaction catalyzed by the endonuclease. 278 57

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