"Alternating B-DNA" conformation for the oligo(dG-dC) duplex in high-salt solution.

Patel, Dinshaw J.; Canuel, Lita L.; Pohl, Fritz M.

doi:10.1073/pnas.76.6.2508

Cited by 212 publications

(80 citation statements)

References 21 publications

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“…[Recently a similar inhibition of the B-UZ transition was observed in aflatoxin B1-poly(dG-dC).poly(dG-dC) complexes (22 (5,15,16). Only one peak is evident, however, at the position of that of the control (4.30 ppm).…”

Section: Resultsmentioning

confidence: 79%

Lack of Z-DNA conformation in mitomycin-modified polynucleotides having inverted circular dichroism.

Tomasz¹,

Barton²,

Magliozzo³

et al. 1983

Proc. Natl. Acad. Sci. U.S.A.

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Poly(dG-dC)-poly(dG-dC) and Micrococcus Iy8O-deikticus DNA were modified by exposure to reductively activated mitomycin C, an antitumor antibiotic. The resulting covalent drug-polynucleotide complexes displayed varying degrees of CD inversions, which are strikingly similar to the inverted spectrum observed with Z-DNA. The following criteria have been used to establish, however, that the inverted CD pattern seen in mitomycin C-polynucleotide complexes does not reflect a Z-DNA conformation. (i) The ethanol-induced transition of poly(dGdC)'poly(dG-dC) from B to Z conformation is not facilitated but rather is inhibited by mitomycin C modification. This may be due to the presence of crosslinks. (ii) Radioimmunoassay indicated no competition for Z-DNA-specific antibody by any of the mitomycin C-modified polynucleotides. (U1 by Pohl and Jovin some years earlier (3) (Fig. 1). These latter conditions induced a cooperative transition of the regular B form of poly(dG-dC)poly(dG-dC) to a new conformation, unique to the alternating dG-dC sequence, the nature of which was unknown at the time except for its characteristic "inverted" CD ( Fig. 1 In the light of the discovery of crystalline Z-DNA, a lefthanded double helix of unique structure (4), it soon became firmly evident that the salt-induced form of poly(dG-dC)-poly(dG-dC) in solution is also Z-DNA (5-7). Consequently, based on the above similarities, MC emerged as a strong candidate for a drug that is capable of inducing Z-DNA conformation upon binding to appropriate, alternating dG-dC sequences (4,8).In view of the extraordinary current interest in both structural aspects and biological significance of Z-DNA (see, e.g., ref. 9), it seemed timely to seek further evidence beyond the CD that would establish firmly whether this was indeed the case. MC is particularly interesting because the CD effect is seen not only with poly(dG-dC)-poly(dG-dC) but also with naturally occurring DNAs (2). As our objective, we probed both types of systems, specifically, MC-poly(dG-dC)poly(dG-dC) and MC-Micrococcus

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Section: Resultsmentioning

confidence: 79%

Lack of Z-DNA conformation in mitomycin-modified polynucleotides having inverted circular dichroism.

Tomasz¹,

Barton²,

Magliozzo³

et al. 1983

Proc. Natl. Acad. Sci. U.S.A.

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“…If a. transition from the right-handed B helix to the left-handed Z-type form is present as it was found in fibres (8) and for poly(dG-dC).poly(dG-dC) in solution (7,(9)(10)(11)(12), the purine-pyrimidine dinucleotide may have a 2'-endo pucker at the pyrimidine and a 3'-endo or 1'-exo pucker at the purine site. Insertion of A-T pairs between C-G pairs introduces alterations in the duplex geometry compared with poly(dG-dC).poly(dG-dC) which can explain deviations in the inverted CD spectra of the two duplex polymers ( fig.…”

Section: Discussionmentioning

confidence: 99%

Conformational transitions of poly(dA-dC).poly(dG-dT) induced by high salt or in ethanolic solution

Zimmer¹,

Tymen²,

Marck³

et al. 1982

Nucl Acids Res

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Poly(dA-dC)*poly(dG-dT) was studied by circular dichroism in the presence of high CsCl concentrations and in ethanolic solutions. This alternating purine-pyrimidine duplex may undergo two conformational transitions from a B-type to a novel stucture and subsequently into an A-form. Cs+ ions or increasing ethanol concentrations induced a change of the B-type CD spectrum and an inversion of the long wavelength CD band. Lowering the temperature below OCor addition of small amounts of Ca++ ions were particularly potent in producing a large negative CD band. A modified B-type structure or a conversion into a left-handed Z-form is considered for this conformational transition.The variability and dynamics of the DNA conformation is dependent on the nucleotide sequence (1-5). Discovery of left-handed Z-DNA in crystals of alternating d.(G-C)n sequences (1-3) has recently focused attention on sequence controlled conformational transitions of DNA between the right-handed B-and A-forms and Z-type or B-type left-handed structures (4-6). Poly(dG-dC)X poly(dG-dC) may assume a left-handed Z-helix in fibres (6,8) and in solution (9) under conditions of reduced water activity. Drastic CD changes of this alternating duplex had first indicated a left-right conversion in solution (9) at high salt concentrations. 31P-NMR studies (10) presented support that the high salt form of poly(dG-dC).poly(dG-dC) may be a Z-DNA. Formation of Z-DNA is strongly favoured by modification of deoxyguanosine residues (11-13) or deoxycytidine residues (14). Poly(dG-m5dC).poly(dG-m5dC) undergoes a B to Z transition close to physiological ionic strength conditions (14). X-ray fibre diffraction data (6,8) showed that other alternating purine-pyrimidine sequences, like poly(dA-dC)'poly(dG-dT) may adopt the left handed Z-helix. For poly(dA-dT)-poly(dA-dT) which is believed to exist mainly in the B-form (6), changes in its geometry have been suggested (15) and were observed in solution at high CsF concentrations (16).In the present paper, first results by circular dichroism (CD) on conformational transitions of poly(dA-dC).poly(dG-dT) induced by high salt or

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“…Also, 31P NMR spectra of the left handed Z DNA of polynucleotides show two characteristic signals with separation or ca. 0.5-1.5 ppm, which can be used to detect the presence of Z DNA in solution (3,6,8,9,(15)(16)(17)(18)(19)(20)(21)(22)(23). It is usual to assume that the downfield and upfield components correspond to predominantly gt and gg conformations, respectively, of the i and a torsion angles (24) in the 03'-P-05' linkages (6,(15)(16)(17)(18)(19)(20)(21)(22)(23) …”

Section: Aritractmentioning

confidence: 99%

³¹P-NMR analysis of the B to Z transition in double-stranded (dC-dG)₃, and (dC-dG)₄in high salt solution

Holak¹,

Borer²,

Levy³

et al. 1984

Nucl Acids Res

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ARITRACTIn 4M NaCl solutions (dC-dG) NMR spectroscopy gives evidence for sequence-dependent conformations or right handed deoxynucleotides (1-9). Assignments have recently been made for phosphodiester groups in the sugar-phosphate backbones ot snort oligonucleotides using 31P-lH decoupling experiments (10-12), two dimensional NMR 31P-lH correlation spectroscopy (13), and from 170 labeled experiments (14). Also, 31P NMR spectra of the left handed Z DNA of polynucleotides show two characteristic signals with separation or ca. 0.5-1.5 ppm, which can be used to detect the presence of Z DNA in solution (3,6,8,9,(15)(16)(17)(18)(19)(20)(21)(22)(23). It is usual to assume that the downfield and upfield components correspond to predominantly gt and gg conformations, respectively, of the i and a torsion angles (24) in the 03'-P-05' linkages (6,(15)(16)(17)(18)(19)(20)(21)(22)(23)

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"Alternating B-DNA" conformation for the oligo(dG-dC) duplex in high-salt solution.

Cited by 212 publications

References 21 publications

Lack of Z-DNA conformation in mitomycin-modified polynucleotides having inverted circular dichroism.

Lack of Z-DNA conformation in mitomycin-modified polynucleotides having inverted circular dichroism.

Conformational transitions of poly(dA-dC).poly(dG-dT) induced by high salt or in ethanolic solution

³¹P-NMR analysis of the B to Z transition in double-stranded (dC-dG)₃, and (dC-dG)₄in high salt solution

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"Alternating B-DNA" conformation for the oligo(dG-dC) duplex in high-salt solution.

Cited by 212 publications

References 21 publications

Lack of Z-DNA conformation in mitomycin-modified polynucleotides having inverted circular dichroism.

Lack of Z-DNA conformation in mitomycin-modified polynucleotides having inverted circular dichroism.

Conformational transitions of poly(dA-dC).poly(dG-dT) induced by high salt or in ethanolic solution

31P-NMR analysis of the B to Z transition in double-stranded (dC-dG)3, and (dC-dG)4in high salt solution

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³¹P-NMR analysis of the B to Z transition in double-stranded (dC-dG)₃, and (dC-dG)₄in high salt solution