Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.30.1 (S1 nuclease)
 3,660 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Kinetoplast DNA minicircles from Crithidia fasciculata contain a single major region of bent helix. Restriction fragments containing this bent helix have electrophoretic behavior on polyacrylamide gels which is much more anomalous than that of previously studied bent fragments. Therefore, the C. fasciculata fragments probably have a more extreme curvature. Sequencing part of a cloned minicircle revealed an unusual structure for the bent region. In a sequence of 200 bases, the bent region contains 18 runs of 4-6 As with 16 of these runs in the same strand. In some parts of this sequence the A runs are regularly spaced with a periodicity of about 10 base pairs. This spacing is nearly in phase with the twist of the DNA helix. This same sequence arrangement has been observed in other bent fragments, but the number of A runs is much greater in this C. fasciculata sequence. It is likely that there are small bends associated with each A run which, because of their periodic spacing, add up to produce substantial curvature in this molecule. In addition to having highly anomalous electrophoretic behavior, the fragment has unusual circular dichroism spectra. Its spectrum in the absence of ethanol is that of B DNA, but ethanol in the concentration range of 51-71% (w/w) induces changes to forms which are different from those of any well characterized DNA structure. The C. fasciculata bent helix is neither cleaved by S1 nuclease nor modified by bromoacetaldehyde under conditions in which other unusual DNA structures (such as cruciforms or B-Z junctions) are susceptible to attack by these reagents. Finally, a two-dimensional agarose gel analysis of a family of topoisomers of a plasmid containing the bent helix revealed no supercoil-induced relaxation.
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PMID:A highly bent fragment of Crithidia fasciculata kinetoplast DNA. 301 64

The synthetic alternating purine-pyrimidine sequence, d(CATG)10.d(CATG)10, has been cloned into a 2.079-kb pBR322-derived plasmid (pLN1) and its conformation studied under torsional stress. The resultant plasmid, pLNc40, is hypersensitive to cleavage by the single strand-specific nucleases, S1 nuclease and Bal31 nuclease, and to modification by the single strand-selective reagent, osmium tetroxide. The S1-hypersensitive site of this plasmid predominates over those previously mapped in pBR322. Site-specific cleavage of pLNc40 with the resolvase T4 endonuclease VII demonstrates that this alternating purine-pyrimidine tract selectively forms a cruciform structure when stably integrated into a negatively supercoiled plasmid. Quantitative measurements of the twist change (-4.3 +/- 0.2) and free energy of formation (16.2 +/- 0.5 kcal/mol) of this cruciform have been made from two-dimensional gel electrophoresis experiments, and correspond well with the predicted values of cruciform formation for this sequence. We conclude that cruciform extrusion versus the B-Z transition is the favoured conformation of this insert under torsional stress.
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PMID:Stress-induced cruciform formation in a cloned d(CATG)10 sequence. 302 73

The sensitivity of the ColE1 cruciform to four enzyme and chemical probes of secondary structure has been studied as a function of plasmid topology. Purified topoisomers of pColIR515 have been probed with S1 nuclease, Bal31 nuclease, phage T4 endonuclease VII or osmium tetroxide, and site-specific reaction quantified. Closely similar profiles of reactivity as a function of linking difference were obtained for each probe. Electrophoresis of the pure topoisomers on polyacrylamide/agarose gels revealed a discontinuity in migration as a function of linking difference. Above a threshold linking difference, topoisomers exhibit pronounced reduction in mobility. The linking difference at which this band shift is found correlates precisely with that required for site-specific reaction with the four probes. We conclude that both probing and topological methods are valuable in the study of cruciform structure in supercoiled DNA. The band shift has been measured with accuracy to allow the calculation of the twist change that accompanies the transition, corresponding to delta Tw = -3.2 +/- 0.1. Using this value together with the critical linking difference we calculate a free energy of formation for this structure delta G = 18.4 +/- 0.5 kcal mol-1 (1 kcal = 4.184 kJ).
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PMID:Thermodynamics of the ColE1 cruciform. Comparisons between probing and topological experiments using single topoisomers. 609 58