TABLE I Effects of Amphiphiles on... | Rockefeller University Press

TABLE I

Effects of Amphiphiles on Bilayer Stiffness and VDSC Function

		gA	VDSC
	Amphiphile	Bilayer stiffness	Activation	Inactivation
Positive c₀	LPC	↓(a)	↓(b)	↑(b)
	Triton X-100	↓(c)	0(c)	↑(c)
	Reduced Triton X-100	↓(c)	0(c)	↑(c)
	Genapol X-100	↓(c)	0(c)	↑(c)
	β-Octyl Glucoside	↓(c)	0(c)	↑(c)
	Pentobarbital	↓(d)	0(e)	↑(e)
	Valproate	↓(d)	0(f)	↑(f)
	Diazepam	↓(d)	0(g)	↑(g,h)
	Capsazepine	↓(i)	0(i)	↑(i)
	Genistein	↓(j)	0↓(k,r)	↑(k,r)
Negative c₀	Capsaicin	↓(i)	0↓(i)	↑(i)
	Docosahexaenoic acid	↓(n)	0(o)	↑(o)
	Arachidonic acid	↓(q,l)	0(s)	↑(s)
	Chlorpromazine	↓(d)	0(m,g)	↑(m,g)
	Oleic acid	0(n)	0(o)	0(o)
	Cholesterol	↑(c,p)	↓(c)	↓(c)

		gA	VDSC
	Amphiphile	Bilayer stiffness	Activation	Inactivation
Positive c₀	LPC	↓(a)	↓(b)	↑(b)
	Triton X-100	↓(c)	0(c)	↑(c)
	Reduced Triton X-100	↓(c)	0(c)	↑(c)
	Genapol X-100	↓(c)	0(c)	↑(c)
	β-Octyl Glucoside	↓(c)	0(c)	↑(c)
	Pentobarbital	↓(d)	0(e)	↑(e)
	Valproate	↓(d)	0(f)	↑(f)
	Diazepam	↓(d)	0(g)	↑(g,h)
	Capsazepine	↓(i)	0(i)	↑(i)
	Genistein	↓(j)	0↓(k,r)	↑(k,r)
Negative c₀	Capsaicin	↓(i)	0↓(i)	↑(i)
	Docosahexaenoic acid	↓(n)	0(o)	↑(o)
	Arachidonic acid	↓(q,l)	0(s)	↑(s)
	Chlorpromazine	↓(d)	0(m,g)	↑(m,g)
	Oleic acid	0(n)	0(o)	0(o)
	Cholesterol	↑(c,p)	↓(c)	↓(c)

(a) Lundbæk and Andersen, 1994, (b) Shander et al., 1996, (c) Lundbæk et al., 2004, (d) Sun, Y., V. Jogini, and O.S. Andersen. 2002. Biophys. J. 82:550a, (e) Rehberg et al., 1995, (f) Schauf, 1987, (g) Wakamori et al., 1989, (h) Backus et al., 1991, (i) Lundbæk et al., 2005, (j) Hwang et al., 2003, (k) Wang et al., 2003, (l) Bruno et al., 2006, (m) Ogata and Narahashi, 1989, (n)Bruno et al., 2007, (o)Vreugdenhil et al., 1996, (p) Lundbæk et al., 1996, (q) Bruno et al., 2005, (r) Paillart et al., 1997, (s) Lee et al., 2002.

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