L. E. Minchenkova scite author profile

synopsisConformation of two-stranded DNA in HzO-methanol, H20-ethanol, HzO-isopropanol, and HzO-dioxane solutions a t different concentrations of alkaline ions has been studied with the aid of circular dichroism. The following conclusions are drawn:The conformation of DNA in HzO and HZO-methanol belongs to a family of B forms (B, C, T forms are the representatives of the family). The magnitude of the winding angle between adjacent base pairs (0) is determined by the concentration and type of the cations. In HZ0 the cation action is nonspecific and leads to an increase in 8 value. In 80% methanol the ions act specifically, Cs+ being to stabilize a form with a greater e value, and Lif being with a lesser one. The total e change is likely within the limits At high content of ethanol, isopropanol, or dioxane (-SO%), but not with methanol, and in low ionic strength the conformation of DNA belongs to a family of A forms (A form is one of the members of the family) and is specified by the concentration and type of cation involved. The two-stranded regions of RNA in HzO are also of A type and winds with the rise of cation concentration. The range of e variation is not narrower than30" 6 e 6 33".The conformational transitions within the families (induced by ions) are of noncooperative pattern, wheras the transitions between the families (induced by nonpolar component) are of cooperative pattern. The effect of cations, when specific, is discussed on the basis of steric correspondence between the width of DNA narrow groove and the size of a hydrated cation.of330 < e 6 45".

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The B̄ to Ā transition of DNA in solution

Иванов

Minchenkova

Minyat

et al. 1974

Journal of Molecular Biology

296

239

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CC/GG Contacts Facilitate the B to A Transition of DMA in Solution

Minchenkova¹,

Schyolkina²,

Chernov³

et al. 1986

Journal of Biomolecular Structure and Dynamics

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Self-complementary decadeoxynucleotides, CCGATATCGG, CCAGATCTGG, CCCTGCAGGG, GGGGGCCCCC, were designed and synthesized to estimate the A-philic free energy of CC/GG contacts. First, regions of temperature-stability of the double-stranded conformation were determined for each 10-mer. Then, circular dichroism spectra were recorded for the B-family forms at different temperatures, counter-ion concentrations and trifluoroethanol contents. A cooperative change typical of the B-A transition is observed in the CD spectra at a trifluoroethanol content specific for each duplex. The positions of half-transition points were functions not only of the nucleotide sequence but of the duplex length as well: the B to A transitions were hindered in these 10-mers in comparison with a lengthy DNA. The B-phility value was estimated to be 3 kcal/mol of 10-mer. The B-A transition point was shown to drop with an increase in the number of CC/GG contacts in a duplex. The designed 10-mers made it possible to estimate quantitatively the A-phility of CC/GG contact as compared with an average DNA: (FA-FB)CC = 0.2 Kcal/mol, (FA-FB)DNA = 0.7 Kcal/mol.

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Spermine and spermidine-induced B̄ to Ā transition of DNA in solution

Minyat

Иванов

Kritzyn

et al. 1979

Journal of Molecular Biology

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The nature of the – transition of DNA in solution

et al. 1975

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L. E. Minchenkova

Different conformations of double‐stranded nucleic acid in solution as revealed by circular dichroism

The B̄ to Ā transition of DNA in solution

CC/GG Contacts Facilitate the B to A Transition of DMA in Solution

Spermine and spermidine-induced B̄ to Ā transition of DNA in solution

The nature of the – transition of DNA in solution

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