Biomedical Engineering Reference
In-Depth Information
6. Guo Y, Ge Q, Lin H, Lin H, Zhu S, Zhou C (2003) Recognition promoted by Zn
2+
between
phenanthroline bridging polyaza ligands and nucleotides - Zn
2+
acts as 'messenger' between
the receptor and substrate. J Mol Recognit 16:102-111
7. Albelda MT, Bernardo MA, Garcia-Espa˜a E, Godino-Salido ML, Luis SV, Melo MJ, Pina F,
Soriano C (1999) Thermodynamics and fluorescence emission studies on potential molecular
chemosensors for ATP recognition in aqueous solution. J Chem Soc Perkin Trans 2 2545-2549
8. Hirsch AKH, Fischer FR, Diederich F (2007) Molekulare Erkennung von Phosphaten in der
Strukturbiologie. Angew Chem 119:342-357
9. Gao H, Cai L, Qi Y, Wang H (2003) Synthesis of 1,3-{Di-[N-bis(dimethylamino)methane]}-
benzyl-diamide and its molecular recognition of nucleotides in aqueous solution. Supramol
Chem 15:323-325
10. Schmidtchen FP (1989) A non-macrocyclic host for binding organic phosphates in protic
solvents. Tetrahedron Lett 30:4493-4496
11. Onda M, Yoshihara K, Koyano H, Ariga K, Kunitake T (1996) Molecular recognition of
nucleotides by the guanidinium unit at the surface of aqueous micelles and bilayers.
A comparison of microscopic and macroscopic interfaces. J Am Chem Soc 118:8524-8530
12. Sebo L, Diederich F (2000) Tetrakis(phenylamidinium)-substituted resorcin[4]arene receptors
for the complexation of dicarboxylates and phosphates in protic solvents. Helv Chim Acta
83:93-113
13. Eliseev AV, Schneider HJ (1994) Molecular recognition of nucleotides, nucleosides, and
sugars by aminocyclodextrins. J Am Chem Soc 116:6081-6088
14. Menuel S, Duval RE, Cuc D, Mutzenhardt P, Marsura A (2007) Molecular recognition of
nucleotides by a new bis(guanidinium)tetrakis(
-cyclodextrin)
tetrapod. New J Chem
b
31:995-1000
15. Schneider SE, O'Nei SN, Anslyn EV (2000) Coupling rational design with libraries leads to
the production of an ATP selective chemosensor. J Am Chem Soc 122:542-543
16. McCleskey SC, Griffin MJ, Schneider SE, McDevitt JT, Anslyn EV (2003) Differential
receptors create patterns diagnostic for ATP and GTP. J Am Chem Soc 125:1114-1115
17. Matsui J, Nagano J, Miyoshi D, Tamaki K, Sugimoto N (2009) An approach to peptide-based
ATP receptors by a combination of random selection, rational design, and molecular imprint-
ing. Biosens Bioelectron 25:563-567
18. Kuchelmeister HY, Schmuck C (2011) Nucleotide recognition in water by a guanidinium-
based artificial tweezer receptor. Chem Eur J 17:5311-5318
Search WWH ::
Custom Search