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stoichiometry of the Ni2þ-induced B -
>
Z transition.
J. Inorg. Biochem.
,
50
(4), 283-298;
(b) Gueron, M., Demaret, J.P., and Filoche, M. (2000) A unified theory of the B-Z transition
of DNA in high and low concentrations of multivalent ions.
Biophys. J.
,
78
(2), 1070-1083;
(c) Van Steenwinkel, R., Campagnari, F., and Merlini, M. (1981) Interaction of manganese(2þ)
with DNA as studied by proton-relaxation enhancement of solvent water.
Biopolymers
,
20
(5),
915-923. (d) Zimmer, C., Luck, G., and Triebel, H. (1974) Conformation and reactivity of
DNA. IV. Base binding ability of transition metal ions to native DNA and effect on helix con-
formation with special reference to DNA-Zn(II) complex.
Biopolymers
,
13
(3), 425-453;
(e) Moldrheim, E., Andersen, B., Froystein, N.A., and Sletten, E. (1998) Interaction of manga-
nese(II), cobalt(II) and nickel(II) with DNA oligomers studied by 1H NMR spectroscopy.
Inorg. Chim. Acta
,
273
(1, 2), 41-46; (f) Froeystein, N.A., Davis, J.T., Reid, B.R., and Sletten,
E. (1993) Sequence-selective metal ion binding to DNA oligonucleotides.
Acta Chem. Scand.
,
47
(7), 649-657; (g) Vinje, J., Parkinson, J.A., Sadler, P.J.
et al.
(2003) Sequence-selective met-
alation of double-helical oligodeoxyribonucleotides with PtII, MnII, and ZnII ions.
Chem. Eur.
J.
,
9
(7), 1620-1630; (h) Vinje, J. and Sletten, E. (2006) Internal versus terminal metalation of
double-helical oligodeoxyribonucleotides.
Chem. Eur. J.
,
12
(3), 676-688; (i) Jia, X., Zon, G.,
and Marzilli, L.G. (1991) Multinuclear NMR investigation of zinc(2
) binding to a dodecamer
oligodeoxyribonucleotide: insights from carbon-13 NMR spectroscopy.
Inorg. Chem.
,
30
(2),
228-239; (j) Pullman, A., Pullman, B., and Lavery, R. (1983) Molecular electrostatic potential
versus field. Significance for DNA and its constituents.
Theochemistry
,
10
, 85-91; (k) Abrescia,
N.G.A., Malinina, L., Fernandez, L.G.
et al.
(1999) Structure of the oligonucleotide d(CGTA-
TATACG) as a site-specific complex with nickel ions.
Nucleic Acids Res.
,
27
(7), 1593-1599;
(l) Abrescia, N.G.A., Tam, H.-D., and Subirana, J.A. (2002) Nickel-guanine interactions in
DNA: crystal structure of nickel-d[CGTGTACACG]2.
J. Biol. Inorg. Chem.
,
7
(1-2), 195-199;
(m) Labiuk, S.L., Delbaere Louis, T.J., and Lee, J.S. (2003) Cobalt(II), nickel(II) and zinc(II)
do not bind to intra-helical N(7) guanine positions in the B-form crystal structure of d
(GGCGCC).
J. Biol. Inorg. Chem.
,
8
(7), 715-720; (n) Soler-Lopez, M., Malinina, L., Ter-
eshko, V.
et al.
(2002) Interaction of zinc ions with d(CGCAATTGCG) in a 2.9. ANG. resolu-
tion X-ray structure.
J. Biol. Inorg. Chem.
,
7
(4-5), 533-538; (o) Kagawa, T.F., Geierstanger,
B.H., Wang, A.H.J., and Ho, P.S. (1991) Covalent modification of guanine bases in double-
stranded DNA. The 1. 2-. ANG. Z-DNA structure of d(CGCGCG) in the presence of copper(II)
chloride.
J. Biol. Chem.
,
266
(30), 20175-20184.
3. Braun, E., Eichen, Y., Sivan, U., and Ben-Yoseph, G. (1998) DNA-templated assembly and
electrode attachment of a conducting silver wire.
Nature
,
391
(6669), 775-778.
4. Jayaraman, S., Tang, W., and Yongsunthon, R. (2011) Electrochemical Synthesis of M:DNA
Nanohybrids.
J. Electrochem. Soc.
,
158
, K123-K126.
5. (a) Keren, K., Krueger, M., Gilad, R.
et al.
(2002) Sequence-specific molecular lithography on
single DNA molecules.
Science
,
297
(5578), 72-75; (b)Keren, K., Berman, R.S., and Braun, E.
(2004) Patterned DNA metallization by sequence-specific localization of a reducing agent.
Nano. Lett.
,
4
(2), 323-326.
6. (a) Aich, P., Labiuk, S.L., Tari, L.W.
et al.
(1999) M-DNA: A Complex Between Divalent Metal
Ions and DNA which Behaves as a Molecular Wire.
J. Mol. Biol.
,
294
(2), 477-485; (b)Wettig,
S.D., Li, C.-Z., Long, Y.-T.
et al.
(2003) M-DNA: a self-assembling molecular wire for nano-
electronics and biosensing.
Anal. Sci.
,
19
(1), 23-26; (c)Wettig, S.D., Wood, D.O., Aich, P., and
Lee, J.S. (2005) M-DNA: A novel metal ion complex of DNA studied by fluorescence tech-
niques.
J. Inorg. Biochem.
,
99
(11), 2093-2101; (d)Wood, D.O., Dinsmore, M.J., Bare, G.A.,
and Lee, J.S. (2002) M-DNA is stabilized in G. C tracts or by incorporation of 5-fluorouracil.
Nucleic Acids Res.
,
30
(10), 2244-2250; (e)Wood, D.O. and Lee, J.S. (2005) Investigation of
pH-dependent DNA-metal ion interactions by surface plasmon resonance.
J. Inorg. Biochem.
,
99
(2), 566-574.
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