Biomedical Engineering Reference
In-Depth Information
chemistry
37
: 17554-61.
[114] Tieleman D.P., Hess B., and Sansom M.S. (2002). Analysis and evaluation of
channel models: simulations of alamethicin.
Biophys. J.
83
: 2393-407.
[115] Tieleman D.P., Hess B., Sansom M.S.P., and Woolley G.A. (2003). Under-
standing pH-dependent selectivitiy in alameticin K18 channels by computer
simulations.
Biophys J
84
: 1464-1469.
[116] Tieleman D.P., Marrink S.J., and Berendsen H.J. (1997). A computer per-
spective of membranes: molecular dynamics studies of lipid bilayer systems.
Biochim. Biophys. Acta
1331
: 235-70.
[117] Unwin N. (2000). The Croonian Lecture 2000. Nicotinic acetylcholine re-
ceptor and the structural basis of fast synaptic transmission.
Philos. Trans. R.
Soc. Lond. B Biol. Sci.
355
: 1813-29.
[118] Woolley G.A., Biggin P.C., Schultz A., Lien L., Jaikaran D.C., et al. (1997).
Intrinsic rectification of ion flux in alamethicin channels: studies with an alame-
thicin dimer.
Biophys. J.
73
: 770-8.
[119] Woolley G.A., and Wallace B.A. (1992). Model ion channels: gramicidin and
alamethicin.
J. Membr. Biol.
129
: 109-36.
[120] Zhou Y., Morais-Cabral J.H., Kaufman A., and MacKinnon R. (2001). Chem-
istry of ion coordination and hydration revealed by a K+ channel- Fab complex
at 2.0 A resolution.
Nature
414
: 43-8.
Search WWH ::
Custom Search