Chemistry Reference
In-Depth Information
References
1. Sewald, N. and Jakubke, H.-D. (2002)
Peptides: Chemistry and Biology
, Wiley-VCH,
Weinheim.
2. Voyer, N. (1997) The development of peptide nanostructures, in
Top. Curr. Chem
, vol.
184
(ed.
F.P. Schmidtchen), Springer, Heidelberg, pp. 1-38.
3. Lombardi, A., Summa, C.M., Geremia, S.
et al.
(2000) Retrostrutural analysis of metallopro-
teins: application to the design of a minimal model for diiron proteins.
Proc. Natl Acad. Sci.
U.S.A.
,
97
, 6298-6305.
4. Christianson, D.W. and Lipscomb, W.N. (1989) Carboxypeptidase A.
Acc. Chem. Res.
,
22
,
62-69.
5. Berg, J.M. (1990) Zinc fingers and other metal-binding domains. Elements for interactions
between macromolecules.
J. Biol. Chem.
,
265
, 6513-6516.
6. Albrecht, M., Stortz, P., and Nolting, R. (2003) Peptide/metal-ligand hybrids for the metal-
assisted stabilization of peptide-microstructures.
Synthesis
,
2003
, 1307-1320.
7.Sovago,I.andOsz, K. (2006) Metal ion selectivity of oligopeptides.
Dalton Trans.
,
2006
,
3841-3854.
8. Freeman, H.C. and Taylor, M.R. (1965) Crystallographic studies of metal-peptide complexes.
III. Disodium glyclglyclglyclglycinocuprate(II) decahydrate.
Acta Crystallogr
,
18
, 939-952.
9. Imperiali, B., Prins, T.J., and Fisher, S.L. (1993) Chemoenzymic synthesis of 2-amino-3-(2,2
0
-
bipyridinyl)propanoic acids.
J. Org. Chem.
,
58
, 1613-1616.
10. Khatyr, A. and Ziessel, R. (2001) New ligands bearing chiral bioactive fragments.
Org. Lett.
,
3
,
1857-1860.
11. Gilbertson, S.R., Collibee, S.E., and Agarkov, A. (2000) Asymmetric catalysis with libraries of
palladium b-turn phosphine complexes.
J. Am. Chem. Soc.
,
122
, 6522-6523.
12. Pattus, F. and Abdallah, M.A. (2000) Siderophores and iron-transport in microorganisms.
J. Chin. Chem. Soc.
,
47
, 1-20.
13. Gretchikhine, A.B. and Ogawa, M.Y. (1996) Photoinduced electron transfer along a b-sheet
mimic.
J. Am. Chem. Soc.
,
118
, 1543-1544.
14. Bishop, B.M., McCafferty, D.G., and Erickson, B.W. (2000) 4
0
-Aminomethyl-2,2
0
-bipyridyl-4-
carboxylic acid (Abc) and related derivatives: Novel bipyridine amino acids for the solid-phase
incorporation of a metal coordination site within a peptide backbone.
Tetrahedron
,
56
,
4629-4638.
15. Torrado, A. and Imperiali, B. (1996) New synthetic amino acids for the design and synthesis of
peptide-based metal ion sensors.
J. Org. Chem.
,
61
, 8940-8948.
16. Bediako-Amoa, I., Silerova, R., and Kraatz, H.-B. (2002) Ferrocenoyl glycylcystamine: organi-
zation into a supramolecular helicate structure.
Chem. Commun.
,
2002
, 2430-2431.
17. Maricic, S. and Frejd, T. (2002) Synthesis and conformational analysis of optically active ferro-
cene containing macrocyclic peptides.
J. Org. Chem.
,
67
, 7600-7606.
18. Dirscherl, G. and Konig, B. (2008) The use of solid-phase synthesis techniques for the prepara-
tion of peptide-metal complex conjugates.
Eur. J. Org. Chem.
,
2008
, 597-634.
19. Ming, L.J. (2010) Metallopeptides - from drug discovery to catalysis.
J. Chin. Chem. Soc.
,
57
,
285-299.
20. Lehn, J.-M., Rigault, A., Siegel, J.
et al.
(1987) Spontaneous assembly of double-stranded heli-
cates from oligobipyridine ligands and copper(I) cations: structure of an inorganic double helix.
Proc. Natl Acad. Sci. USA
,
84
, 2565-2569.
21. Piguet, C., Bernardinelli, G., and Bunzli, J.-C.G. (1997) Helicates as versatile supramolecular
complexes.
Chem. Rev.
,
97
, 2005-2062.
22. Albrecht, M. (2001) “Lets twist again” - Double-stranded, triple-stranded and circular heli-
cates.
Chem. Rev.
,
101
, 3457-3498.
Search WWH ::
Custom Search