2002
DOI: 10.1016/s0006-3495(02)75628-2
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On the Competition between Water, Sodium Ions, and Spermine in Binding to DNA: A Molecular Dynamics Computer Simulation Study

Abstract: The interaction of DNA with the polyamine spermine 4ϩ (Spm 4ϩ ), sodium ions, and water molecules has been studied using molecular dynamics computer simulations in a system modeling a DNA crystal. The simulation model consisted of three B-DNA decamers in a periodic hexagonal cell, containing 1200 water molecules, 8 Spm 4ϩ , 32 Na ϩ , and 4 Cl Ϫ ions. The present paper gives a more detailed account of a recently published report of this system and compares results on this mixed Spm 4ϩ /Na ϩ -cation system with … Show more

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Cited by 124 publications
(121 citation statements)
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“…This has been exemplified by spermine (36)(37)(38) and PCPs (39), in particular, PL, which appears to have modes of DNA binding similar to H1 linker histone (40,41). The X-ray crystal structure of H1 linker histone (42) and circular dichroism studies of drug binding to DNA (43) indicate that positively charged groups of histones are inserted into the DNA minor groove.…”
Section: Model Of Interactions Between Dna and Pcpsmentioning
confidence: 99%
“…This has been exemplified by spermine (36)(37)(38) and PCPs (39), in particular, PL, which appears to have modes of DNA binding similar to H1 linker histone (40,41). The X-ray crystal structure of H1 linker histone (42) and circular dichroism studies of drug binding to DNA (43) indicate that positively charged groups of histones are inserted into the DNA minor groove.…”
Section: Model Of Interactions Between Dna and Pcpsmentioning
confidence: 99%
“…We note that interactions between DNA and spermidine or spermine have been studied by techniques like Xray diffraction [48,82], neutron scattering [83], and Raman spectroscopy [84], and by more or less complicated models [48,51,85,86] but the binding properties of the polyamines to DNA are still not clear. Several types of binding have been proposed in the literature, like the location of spermine molecules in the major groove with a single contact with the polyelectrolyte [82], or that the spermine is present in higher concentration close to the minor [86]; also, that polyamines bind to DNA simply by non-specific electrostatic interactions [83,84].…”
Section: Effect Of the Chain Lengthmentioning
confidence: 99%
“…Several types of binding have been proposed in the literature, like the location of spermine molecules in the major groove with a single contact with the polyelectrolyte [82], or that the spermine is present in higher concentration close to the minor [86]; also, that polyamines bind to DNA simply by non-specific electrostatic interactions [83,84]. It is, however, widely accepted that the flexible polyamines have different binding sites, interacting in an irregular way with different sites on DNA [48], forming a short-lived and non-structured [86], mobile [84] atmosphere of ions around the macromolecule. This is the proposed reason for the fact that spermine molecules, for example, are not easily detected by X-ray methods, even though they are present at a high concentration [48].…”
Section: Effect Of the Chain Lengthmentioning
confidence: 99%
“…[6,7] Their interaction with the DNA molecule, for instance, has been widely investigated through different experimental techniques. [8][9][10][11][12][13][14] While deregulated amine metabolism is a well-recognized characteristic of animal and human cancers, [15,16] interference with polyamine biosynthesis is presently a rather promising therapeutical approach against proliferative diseases. Moreover, many efforts have lately been devoted to the possible use of polyamines as biochemical markers of cancer.…”
Section: Introductionmentioning
confidence: 99%