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65. Bonomo, R.P., Cucinotta, V., and Riggi, F. (1980) EPR solution studies of copper(II) mixed
complexes containing iminodiacetic or pyridine-2,6-dicarboxylic acids and pyridine, ethylene-
diamine or diethylenetriamine.
J. Mol. Struct.
,
69
, 295-300.
66. Atwell, S., Meggers, E., Spraggon, G., and Schultz, P.G. (2001) Structure of a copper-mediated
base pair in DNA.
J. Am. Chem. Soc.
,
123
(49), 12364-12367.
67. Mokhir, A., Stiebing, R., and Kramer, R. (2003) Peptide nucleic acid-metal complex conju-
gates: facile modulation of PNA-DNA duplex stability.
Bioorg. Med. Chem. Lett.
,
13
(8),
1399-1401.
68. Hrdlicka, P.J., Babu, B.R., Sorensen, M.D., and Wengel, J. (2004) Interstrand communication
between 2
0
-N-(pyren-1-yl)methyl-2
0
-amino-LNA monomers in nucleic acid duplexes:
directional control and signalling of full complementarity.
Chem. Commun.
,
2004
(13), 1478-
1479.
69. Hirva, P., Nielsen, A., Bond, A.D., and McKenzie, C.J. (2010) Potential cross-linking transition
metal complexes (M¼Ni, Cu, Zn) in the ligand-modified LNA duplexes.
J. Phys. Chem. B
,
114
(36), 11942-11948.
70. (a) Brotschi, C. and Leumann, C.J. (2003) DNA with hydrophobic base substitutes: a stable,
zipperlike recognition motif based on interstrand-stacking interactions.
Angew. Chem. Int. Ed.
,
42
(14), 1655-1658; (b) Brotschi, C., Mathis, G., and Leumann, C.J. (2005) Bipyridyl- and
biphenyl-DNA: a recognition motif based on interstrand aromatic stacking.
Chem. Eur. J.
,
11
(6), 1911-1923.
71. Johar, Z., Zahn, A., Leumann, C.J., and Jaun, B. (2008) Solution structure of a DNA duplex
containing a biphenyl pair.
Chem. Eur. J.
,
14
(4), 1080-1086.
72. Mees, A., Klar, T., Gnau, P.
et al.
(2004) Crystal structure of a photolyase bound to a CPD-Like
DNA lesion after in situ repair.
Science
,
306
(5702), 1789-1793.
73. Tanaka, K., Tengeiji, A., Kato, T.
et al.
(2003) A discrete self-assembled metal array in artificial
DNA.
Science
,
299
(5610), 1212-1213.
74. Zhang, H.Y., Calzolari, A., and Di Felice, R. (2005) On the magnetic alignment of metal ions in
a DNA-Mimic Helix.
J. Phys. Chem. B
,
109
, 15345-15348.
75. Jishi, R.A. and Bragin, J. (2007) Symmetry selection in artificial DNA base pairs.
J. Phys.
Chem. B
,
111
(19), 5357-5361.
76. (a) Nakanishi, Y., Kitagawa, Y., Shigeta, Y.
et al.
(2009) Theoretical studies on magnetic interac-
tions between Cu(II) ions in hydroxypyridone nucleobases.
Polyhedron
,
28
(9-10), 1714-1717;
(b) Mallajosyula, S.S. and Pati, S.K. (2009) Conformational Tuning of Magnetic Interactions in
Metal-DNA Complexes.
Angew. Chem. Int. Ed.
,
48
(27), 4977-4981, S4977/1-S4977/8.
77. Takezawa, Y., Maeda, W., Tanaka, K., and Shinoya, M. (2009) Discrete self-assembly of iron
(III) ions inside triple-stranded artificial DNA.
Angew. Chem. Int. Ed.
,
48
(6), 1081-1084.
78. Kalachova, L., Pohl, R., and Hocek, M. (2012) Synthesis of nucleoside mono- and triphos-
phates bearing oligo-pyridine ligands, their incorporation into DNA and complexation with
transition metals.
Org. Biomol. Chem.
,
10
(1), 49-55.
79. Megger, D.A., Guerra, C.F., Hoffmann, J.
et al.
(2011) Contiguous metal-mediated base pairs
comprising two AgI ions.
Chem. Eur. J.
,
17
(23), 6533-6544.
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