Bibliography

 

1

M. Billeter, Homeodomain-type DNA recogntion, Prog. Biophys. molec. Biol., 1996, 66, 211-225.

2

W. J. Gehring, Y. Q. Qian, M. Billeter, K. Furukubo-Tokunaga, A. F. Schier, D. Resendez-Perez, M. Affolter, G. Otting, K. Wüthrich, Homeodomain-DNA recognition, Cell, 1994, 78, 211-223.

3

C. Wolberger, Homeodomain interactions, Curr. Opin. struct. Biol., 1996, 6, 62-68.

4

G. Otting, Y. Q. Qian, M. Billeter, M. Müller, M. Affolter, W. J. Gehring, K. Wüthrich, Protein-DNA contacts in the structure of a homeodomain-DNA complex determined by nuclear magnetic resonance spectroscopy in solution, EMBO J., 1990, 9, 3085-3092.

5

M. Billeter, Y. Q. Qian, G. Otting, M. Müller, W. Gehring, K. Wüthrich, Determination of the nuclear magnetic resonance solution structure of an Antennapedia homeodomain-DNA complex, J. Mol. Biol., 1993, 234, 1084-1097.

6

E. Fraenkel, C. O. Pabo, Comparison of X-ray and NMR structures for the Antennapedia homeodomain-DNA complex, Nature Struct. Biol., 1998, 5, 692-697.

7

A. Percival-Smith, M. Müller, M. Affolter, W. J. Gehring, The interaction with DNA of wild-type and mutant fushi-tarazu homeodomains, EMBO J., 1990, 9, 3967-3974. CORRIGENDUM: EMBO J., 1992, 11, 382.

8

S. E. Ades, R. T. Sauer, Differential DNA-binding specificity of the engrailed homeodomain: the role of residue 50, Biochemistry, 1994, 33, 9187-9194.

9

L. Tucker-Kellog, M. A. Rould, K. A. Chambers, S. E. Ades, R. T. Sauer, C. O. Pabo, Engrailed (Gln50$\to$Lys) homeodomain-DNA complex at 1.9 Å resolution: structural basis for enhanced affinity and altered specificity, Structure, 1997, 5, 1047-1054.

10

Y. Q. Qian, G. Otting, K. Wüthrich, NMR detection of hydration water in the intermolecular interface of a protein-DNA complex, J. Am. Chem. Soc., 1993, 115, 1189-1190.

11

M. Billeter, P. Güntert, P. Luginbühl, K. Wüthrich, Hydration and DNA recogntion by homeodomains, Cell, 1996, 85, 1057-1065.

12

E. Liepinsh, G. Otting, K. Wüthrich, NMR observation of individual molecules of hydration water bound to DNA duplexes: direct evidence for a spine of hydration water present in aqueous solution, Nucl. Acids Res., 1992, 20, 6549-6553.

13

E. Liepinsh, W. Leupin, G. Otting, Hydration of DNA in aqueous solution: NMR evidence for a kinetic destabilization of the minor groove hydration of d-(TTAA)₂ versus d-(AATT)₂ segments, Nucl. Acids Res., 1994, 22, 2249-2254.

14

P. Güntert, W. Braun, K. Wüthrich, Efficient computation of three-dimensional protein structures in solution from nuclear magnetic resonance data using the program DIANA and the supporting programs CALIBA, HABAS and GLOMSA, J. Mol. Biol., 1991, 217, 517-530.

15

R. Koradi, M. Billeter, K. Wüthrich, MOLMOL: a program for display and analysis of macromolecular structures, J. Mol. Graph, 1996, 14, 51-55.

16

P. Luginbühl, P. Güntert, M. Billeter, K. Wüthrich, The new program OPAL for molecular dynamics simulations and energy refinements of biological macromolecules, J. Biomol. NMR, 1996, 8, 136-146.

17

W. D. Cornell, P. Cieplak, C. I. Bayly, I. R. Gould, K. M. Mertz Jr., D. M. Ferguson, D. C. Spellmeyer, T. Fox, J. W. Caldwell, P. A. Kollman, A 2 $^{\hbox{\small nd}}$ generation force-field for the simulations of proteins, nucleic-acids, and organic-molecules, J. Am. Chem. Soc., 1995, 117, 5179-5197.