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Query: EC:3.1.30.1 (
S1 nuclease
)
3,660
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
S1 nuclease
hydrolysis and bezoylated naphthoylated DEAE-cellulose (BND-cellulose) chromatography have been used to demonstrate that alkylation of DNA by dimethyl sulfate at neutral pH leads to the production of partially denatured molecules under conditions where no significant depurination occurs. DNA was alkylated with increasing concentrations of the alkylating agent, and subjected to enzymatic degradation and binding to BND cellulose. An increasing degree of DNA hydrolysis and adherence to BND cellulose was seen. On hydroxyapatite chromatography the alkylated DNA still eluted at the position of double-stranded molecules suggesting the presence of partially denatured regions. The presence of
salt
had a preventive effect on such denaturation.
...
PMID:Effect of alkylation on the secondary structure of DNA. 628 69
Modification of DNA by the carcinogen N-acetoxy-N-2-acetylaminofluorene gives two adducts, a major one at the C-8 position of guanine and a minor one at the N-2 position with differing conformations. Binding at the C-8 position results in a large distortion of the DNA helix referred to as the "base displacement model" with the carcinogen inserted into the DNA helix and the guanosine displaced to the outside. The result is increased susceptibility to
nuclease S1
digestion due to the presence of large, single-stranded regions in the modified DNA. In contrast, the N-2 adduct results in much less distortion of the helix and is less susceptible to
nuclease S1
digestion. A third and predominant adduct is formed in vivo, the deacetylated C-8 guanine adduct. The conformation of this adduct has been investigated using the dimer dApdG as a model for DNA. The attachment of aminofluorene (AF) residues introduced smaller changes in the circular dichroism (CD) spectra of dApdG than binding of acetylaminofluorene (AAF) residues. Similarly, binding of AF residues caused lower upfield shifts for the H-2 and H-8 protons of adenine than the AAF residues. These results suggest that AF residues are less stacked with neighboring bases than AAF and induce less distortion in conformation of the modified regions than AAF. An alternative conformation of AAF-modified deoxyguanosine has been suggested based on studies of poly(dG-dC).(dG-dC). Modification of his copolymer with AAF to an extent of 28% showed a CD spectrum that had the characteristics of the left-handed Z conformation seen in unmodified poly(dG-dC).poly(dG-dC) at high ethanol or
salt
concentrations. Poly(dG-dC).poly(dG-dC) which does not undergo the B to Z transition at high ethanol concentrations, did not show this type of conformational change with high AAF modifications. Differences in conformation were suggested by single-strand specific
nuclease S1
digestion and reactivity with anticytidine antibodies. Highly modified poly(GS-dC).poly(DG-dC) was almost completely resistant to
nuclease S1
hydrolysis, while, modified DNa and poly(dG).poly(dC) are highly susceptible to digestion. Two possible conformations for deoxyguanosine modified at the C-8 position by AAF are compared depending on whether its position is in alternating purine-pyrimidine sequences or random sequence DNA.
...
PMID:Alternative conformations of DNA modified by N-2-acetylaminofluorene. 732 72
Polynucleotide sequence relatedness can be studied with the
S1 nuclease
method by a fast and accurate procedure using DEAE-cellulose filters (DE81 Whatman). After S1 treatment of DNA-DNA hybrid molecules formed in 0.42 M saline solution, free nucleotides (digestion products) but not DNA are eluted from DE81 filters in appropriate
salt
concentration such as 5% Na2HPO4.12 H2O. The relative binding ratio and the thermal stability of heteroduplexes are determined for 7 strains of Enterobacteriaceae. The conclusions resulting from
S1 nuclease
and DE81 filters assay are similar to those obtained with
S1 nuclease
and trichloracetic acid precipitation.
...
PMID:Use of DEAE-cellulose filters in the S1 nuclease method for bacterial deoxyribonucleic acid hybridization. 738 54
In this paper we describe an enhanced method for the large scale production of high quality 13C/15N labelled NTPs. High amounts of labelled RNA was obtained from E. coli cells grown in 13C/15N enriched medium and treated with chloramphenicol. Total RNA was extracted from spheroplasted cells in the presence of SDS and proteinase K and subsequently degraded to NMPs by nuclease P1 and high concentrations of
nuclease S1
in a low
salt
buffer. To avoid non-specific degradation of the RNA, nuclease digestion was performed in a short term reaction on native, not heat-denatured RNA. CMP, AMP, GMP and UMP were chromatographically separated and converted to the corresponding NTPs by a mixture of kinases in the presence of a coupled redox system based on thioredoxin and dithiothreitol. The quality of the 13C/15N labelled NTPs was tested by in vitro transcription.
...
PMID:A method for production of 13C/15N double labelled RNA in E. coli, and subsequent in vitro synthesis of ribonucleotide 5' triphosphates. 754 14
The effects of inserting 16 base pair (bp) of alternating CG [(CG)8] near the middle of a much longer restriction fragment (1097 bp) are investigated by measuring various properties that are sensitive to secondary and tertiary structure. Results for this fragment are compared with those for a control fragment (1089 bp) with the identical sequence except at the insert. Another fragment (1382 bp), which contains a 296-bp extension at the 5'-end of the 1089-bp control fragment, is also used as a secondary control in some experiments. When the 1097-bp (CG)8 insert fragment is compared with the control fragments in 0.1 M NaCl buffer, the (CG)8 insert is found to induce disproportionately large relative changes in the molar ellipticity at 273 nm ([theta]273), the torsion constant (alpha) measured by fluorescence polarization anisotropy, the optical melting profile, and the susceptibility to
S1 nuclease
. Estimates of the minimum distance over which the (CG)8 insert alters the secondary structure range from 330 to 550 bp. With increasing NaCl concentration, the 1097-bp insert fragment undergoes a structural transition between 2.0 and 2.5 M that is manifested in the apparent diffusion coefficient (Dplat) from dynamic light scattering at large scattering vector. This transition, which is not exhibited by the control DNAs, is presumed to involve formation of Z-helix at the insert. However, the observed decrease in (Dplat) is attributed to an increase in bending rigidity, which perforce must be globally distributed far beyond the (CG)8 insert per se. In 4.25 M NaCl (but not in 0.1 M NaCl), the addition of 1 ethidium dye per 300 bp induces an extensive structural transition in the 1097 bp (CG)8 insert fragment. This transition, which also is not exhibited by the control DNAs, significantly decreases the bending rigidity, doubles [theta]273, and takes place on a time scale of a few days. Removal of ethidium and
salt
by dialysis vs 0.1 M NaCl buffer restores the original properties of the 1097-bp (CG)8 insert fragment. The present results are consistent with a (fluctuating, long-range) description of the secondary structure in which a given short sequence transiently fluctuates among two or more distinct secondary structures that extend over much larger domains of variable position and size, and whose relative stabilities depend on distant as well as close-lying base pairs.
...
PMID:Dynamics and structures of DNA: long-range effects of a 16 base-pair (CG)8 sequence on secondary structure. 824 30
To evaluate the relative importance of alternating d(CG) sequence length, DNA supercoiling, and
salt
in left-handed Z-DNA formation, plasmids containing short d(CG)n sequences (n = 3-17) with the capability of replicating in either Escherichia coli or the halophilic archaeum Halobacterium halobium were constructed. Z-DNA conformation in the d(CG)n sequences was assayed by (i) a band shift assay using the Z-DNA-specific Z22 monoclonal antibody (ZIBS assay); (ii) an
S1 nuclease
cleavage-primer extension assay to map B-Z junctions; and (iii) a BssHII restriction inhibition assay. Using the ZIBS assay on plasmids purified from E. coli, the transition from B-DNA to Z-DNA occurred from d(CG)4, to d(CG)5, with 20% of d(CG)4, and 90% of d(CG)5 in Z-DNA conformation. These findings were consistent with the results of
S1 nuclease
cleavage observed at B-Z junctions flanking d(CG)4 and d(CG)5 sequences. Resistance to BssHII restriction endonuclease digestion was observed only in supercoiled plasmids containing d(CG)8 or longer sequences, indicating that shorter d(CG)n sequences are in dynamic equilibrium between B- and Z-DNA conformations. When a plasmid containing d(CG)4, was isolated from a topA mutant of E. coli, it contained 25% greater linking deficiency and 40% greater Z-DNA conformation in the alternating d(CG) region. In plasmids purified from H. halobium, which showed 30% greater linking deficiency than from E. coli, 20-40% greater Z-DNA formation was found in d(CG)4-6 sequences. Surprisingly, no significant difference in Z-DNA formation could be detected in d(CG)3-17 sequences in plasmids from either E. coli or H. halobium in the NaCl concentration range of 0.1-4 M.
...
PMID:Analysis of left-handed Z-DNA formation in short d(CG)n sequences in Escherichia coli and Halobacterium halobium plasmids. Stabilization by increasing repeat length and DNA supercoiling but not salinity. 862 98
A potential to form a non-cruciform unusual DNA structure was shown at the inverted repeat DNA sequence of a fish satellite DNA. The recombinant plasmid harboring a member of the EcoRI satellite family of Sillago japonica (Percoidei, Sillaginidae) was subjected to
S1 nuclease
treatment, and the cutting sites were mapped by primer extension assay. The
S1 nuclease
attacked the 3'-half of the inverted repeat but not the middle part of symmetry under various
salt
conditions, suggesting that this unusual DNA structure is different from the DNA cruciform and a conventional intramolecular triplex structure. In the presence of 200 mM potassium chloride, the typical DNA cruciform has extruded, suggesting that certain purine-purine-pyrimidine base triads are involved in the formation of this unusual DNA structure. These results support the occurrence of a novel unusual DNA structure formed in the inverted repeat sequence.
...
PMID:A novel unusual DNA structure formed in an inverted repeat sequence. 961 Mar 96
To gain insights into inefficient allele exchange in mycobacteria, we compared homologous pairing and strand exchange reactions promoted by RecA protein of Mycobacterium tuberculosis to those of Escherichia coli RecA protein. The extent of single-stranded binding protein (SSB)-stimulated formation of joint molecules by MtRecA was similar to that of EcRecA over a wide range of pH values. In contrast, strand exchange promoted by MtRecA was inhibited around neutral pH due to the formation of DNA networks. At higher pH, MtRecA was able to overcome this constraint and, consequently, displayed optimal strand exchange activity. Order of addition experiments suggested that SSB, when added after MtRecA, was vital for strand exchange. Significantly, with shorter duplex DNA, MtRecA promoted efficient strand exchange without network formation in a pH-independent fashion. Increase in the length of duplex DNA led to incomplete strand exchange with concomitant rise in the formation of intermediates and networks in a pH-dependent manner. Treatment of purified networks with
S1 nuclease
liberated linear duplex DNA and products, consistent with a model in which the networks are formed by the invasion of hybrid DNA by the displaced linear single-stranded DNA. Titration of strand exchange reactions with ATP or
salt
distinguished a condition under which the formation of networks was blocked, but strand exchange was not significantly affected. We discuss how these results relate to inefficient allele exchange in mycobacteria.
...
PMID:RecA protein of Mycobacterium tuberculosis possesses pH-dependent homologous DNA pairing and strand exchange activities: implications for allele exchange in mycobacteria. 1007 73
A novel interarm interaction of DNA cruciform forming at inverted repeat sequence was characterized using an
S1 nuclease
digestion, permanganate oxidation, and microscopic imaging. An inverted repeat consisting of 17 bp complementary sequences was isolated from the bluegill sunfish Lepomis macrochirus (Perciformes) and subcloned into the pUC19 plasmid, after which the supercoiled recombinant plasmid was subjected to enzymatic and chemical modification. In high
salt
conditions (200 mM NaCl, or 100-200 mM KCl),
S1 nuclease
cut supercoiled DNA at the center of palindromic symmetry, suggesting the formation of DNA cruciform. On the other hand,
S1 nuclease
in the presence of 150 mM NaCl or less cleaved mainly the 3'-half of the repeat, thereby forming an unusual structure in which the 3'-half of the inverted repeat, but not the 5'-half, was retained as an unpaired strand. Permanganate oxidation profiles also supported the presence of single-stranded part in the 3'-half of the inverted repeat in addition to the center of the symmetry. Both electron microscopy and atomic force microscopy have detected a thick protrusion on the supercoiled DNA harboring the inverted repeat. We hypothesize that the cruciform hairpins at conditions favoring triplex formation adopt a parallel side-by-side orientation of the arms allowing the interaction between them supposedly stabilized by hydrogen bonding of base triads.
...
PMID:Interarm interaction of DNA cruciform forming at a short inverted repeat sequence. 1282 94
There is accumulating evidence to suggest that palindromic AT-rich repeats (PATRRs) represent hot spots of double-strand breakage that lead to recurrent chromosomal translocations in humans. As a mechanism for such rearrangements, we proposed that the PATRR forms a cruciform structure that is the source of genomic instability. To test this hypothesis, we have investigated the tertiary structure of a cloned PATRR. We have observed that a plasmid containing this PATRR undergoes a conformational change, causing temperature-dependent mobility changes upon agarose gel electrophoresis. The mobility shift is observed in physiologic
salt
concentrations and is most prominent when the plasmid DNA is incubated at room temperature prior to electrophoresis. Analysis using two-dimensional gel electrophoresis indicates that the mobility shift results from the formation of a cruciform structure.
S1 nuclease
and T7 endonuclease both cut the plasmid into a linear form, also suggesting cruciform formation. Furthermore, anti-cruciform DNA antibody reduces the electrophoretic mobility of the PATRR-containing fragment. Finally, we have directly visualized cruciform extrusions from the plasmid DNA with the size expected of hairpin arms using atomic force microscopy. Our data imply that for human chromosomes, translocation susceptibility is mediated by PATRRs and likely results from their unstable conformation.
...
PMID:Cruciform DNA structure underlies the etiology for palindrome-mediated human chromosomal translocations. 1520 32
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