Biomedical Engineering Reference
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to the pull originating primarily from the electrostatic and van der Waal's interactions
between localized charges on lipids and membrane proteins or any other membrane-
active drug molecules. Both electrical energetic coupling (primary regulator) and
mechanical energetic coupling (secondary regulator) between a lipid bilayer and
integral membrane proteins regulate the membrane protein functions.
References
1. Aguilella, V. M. and Bezrukov, S. M.: Alamethicin channel conductance modified by lipid
charge. Eur. Biophys. J.
30
, 233-241 (2001).
2. Allen, T. W., Andersen, O.S. and Roux, B.: Energetics of ion conduction through the gramicidin
channel. Proc. Natl. Acad. Sci.
101
, 117-122 (2004).
3. Andersen, O.S., D. B. Sawyer and Koeppe, R.E. II. In: Biomembrane structure and Function,
K. R. K. Easwaran and B. Gaber (eds.) p227. Schenectady, New York: Adenine (1992).
4. Andersen, O.S.: Ion movement through Gramicidin A Channels - Studies on the Diffusion-
controlled Association Step. Biophys. J.
41
, 147-165 (1983).
5. Andersen, O.S., Nielsen, C., Maer, A. M., Lundbæk, J. A., Goulian, M. and Koeppe, R.E. II:
Gramicidin channels: molecular force transducers in lipid bilayers. Biol. Skr. Dan. Vid. Selsk.
49
, 75-82 (1998).
6. Andersen, O.S. and Koeppe, R.E. II: Bilayer thickness and membrane protein function: an
energetic perspective. Annu. Rev. Biophys. Biomol. Struct.
36
, 107-130 (2007).
7. Andersen, O.S., Koeppe, R.E. II and Roux, B.: Gramicidin Channels. IEEE Trans. Nanobiosci.
4
, 10-20 (2005).
8. Arseniev, A. S., Barsukov, I. L., Bystrov, V.F. and Ovchinnikov, Yu. A.: Biol. Membr.
3
, 437
(1986).
9. Ashrafuzzaman, M. and Beck, H.: In Vortex dynamics in two-dimensional Josephson junction
arrays, University of Neuchatel, ch 5 p 85, (2004)
http://doc.rero.ch/record/2894ln=fr
10. Ashrafuzzaman, M. and Andersen, O.S.: Lipid bilayer elasticity and intrinsic curvature as
regulators of channel function: a single molecule study. Biophys. J.
421A
(2007).
11. Ashrafuzzaman, M., McElhaney, R. N. and Andersen, O.S.: One antimicrobial peptide (gram-
icidin S) can affect the function of another (gramicidin A or alamethicin) via effects on the
phospholipid bilayer. Biophys. J.
94
6-7, (2008).
12. Ashrafuzzaman, M., Andersen, O.S. and McElhaney, R. N.: The antimicrobial peptide grami-
cidin S permeabilizes phospholipid bilayer membranes without forming discrete ion channels.
Biochim. Biophys. Acta
1778
, 2814-2822 (2008).
13. Ashrafuzzaman, Md., Lampson. M.A., Greathouse, D.V., Koeppe II, R.E., Andersen, O.S.:
Manipulating lipid bilayer material properties by biologically active amphipathic molecules.
J. Phys.: Condens. Mat.
18
, S1235-1255 (2006).
14. Ashrafuzzaman, Md., Duszyk, M. and Tuszynski, J. A.: Chemotherapy drugs Thiocolchicoside
and Taxol Permeabilize Lipid Bilayer Membranes by Forming Ion Pores. J. of Physics: Conf.
Series
329
(012029), 1-16 (2011).
15. Ashrafuzzaman, Md., Tseng, C.-Y., Duszyk, M. and Tuszynski, J. A.: Chemotherapy drugs
form ion pores in membranes due to physical interactions with lipids. submitted (2011).
16. Benz, R., Fröhlich, O., Läuger, P., and Montal, M.: Electrical capacity of black lipid films and
of lipid bilayers made from monolayers. Biochim. Biophys. Acta
394
, 323-334, (1975).
17. Berneche, S. and Roux, B.: Molecular Dynamics of the KcsA
K
+
Channel in a Bilayer Mem-
brane. Biophys. J.
78
, 2900-2917 (2000).
18. Bezrukov, S.M., Rand, R.P., Vodyanoy, I. and Parsegian, V. A.: Lipid packing stress and
polypeptide aggregation : alamethicin channel probed by proton titration of lipid charge. Fara-
day Discuss.
111
, 173-183 (1998).
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