ABCMdb

ABCC7 p.Phe337Trp

Predicted by SNAP2:	A: D (71%), C: D (66%), D: D (91%), E: D (91%), G: D (75%), H: D (75%), I: D (71%), K: D (91%), L: D (53%), M: D (66%), N: D (85%), P: D (91%), Q: D (85%), R: D (85%), S: D (85%), T: D (85%), V: D (75%), W: D (85%), Y: D (71%),
Predicted by PROVEAN:	A: D, C: D, D: D, E: D, G: D, H: D, I: D, K: D, L: D, M: D, N: D, P: D, Q: D, R: D, S: D, T: D, V: D, W: D, Y: N,

[switch to compact view]
Comments [show]

None has been submitted yet.

Publications
[hide] Molecular determinants of anion selectivity in the... Biophys J. 2000 Jun;78(6):2973-82. Linsdell P, Evagelidis A, Hanrahan JW
Molecular determinants of anion selectivity in the cystic fibrosis transmembrane conductance regulator chloride channel pore.
Biophys J. 2000 Jun;78(6):2973-82., [PMID:10827976]

Abstract [show]
Ionic selectivity in many cation channels is achieved over a short region of the pore known as the selectivity filter, the molecular determinants of which have been identified in Ca(2+), Na(+), and K(+) channels. However, a filter controlling selectivity among different anions has not previously been identified in any Cl(-) channel. In fact, because Cl(-) channels are only weakly selective among small anions, and because their selectivity has proved so resistant to site-directed mutagenesis, the very existence of a discrete anion selectivity filter has been called into question. Here we show that mutation of a putative pore-lining phenylalanine residue, F337, in the sixth membrane-spanning region of the cystic fibrosis transmembrane conductance regulator (CFTR) Cl(-) channel, dramatically alters the relative permeabilities of different anions in the channel. Specifically, mutations that reduce the size of the amino acid side chain present at this position virtually abolish the relationship between anion permeability and hydration energy, a relationship that characterizes the anion selectivity not only of wild-type CFTR, but of most classes of Cl(-) channels. These results suggest that the pore of CFTR may indeed contain a specialized region, analogous to the selectivity filter of cation channels, at which discrimination between different permeant anions takes place. Because F337 is adjacent to another amino acid residue, T338, which also affects anion selectivity in CFTR, we suggest that selectivity is predominantly determined over a physically discrete region of the pore located near these important residues.

Comments [show]

None has been submitted yet.

Sentences [show]
No. Sentence Comment
69 F337W gave only small currents after expression in BHK cells, such that its full anion selectivity sequence could not be determined. Login to comment
77 Both wild-type and F337Y (Fig. 3), as well as F337L, F337W, and I344A (not shown; see Table 2), were able to select for anions that bound water molecules less strongly, consistent with the lyotropic selectivity sequence common to most classes of Clafa; channels (see Introduction). Login to comment
116 Although we cannot rule out this possibility, we feel that the fact that mutations at two adjacent TM6 residues, F337 (this study) and T338 (Linsdell et al., 1998), significantly affect TABLE 1 Relative permeability of intracellular ions in wild-type and mutant CFTR Cld1a; channels Wild type F337A F337S F337L F337Y F337W I344A Cl 1.00 afe; 0.01 (10) 1.00 afe; 0.04 (6) 1.00 afe; 0.08 (3) 1.00 afe; 0.02 (5) 1.00 afe; 0.02 (6) 1.00 afe; 0.03 (5) 1.00 afe; 0.01 (9) Br 1.37 afe; 0.07 (8) 0.60 afe; 0.04 (4)** 0.50 afe; 0.04 (4)** 1.22 afe; 0.04 (5) 1.39 afe; 0.04 (3) 1.12 afe; 0.05 (4)* 1.74 afe; 0.01 (3)* I 0.83 afe; 0.03 (6) 0.23 afe; 0.04 (5)** 0.23 afe; 0.02 (4)** 0.39 afe; 0.01 (3)** 0.69 afe; 0.03 (7)* - 0.99 afe; 0.05 (4)* F 0.103 afe; 0.007 (9) 0.35 afe; 0.01 (4)** 0.43 afe; 0.02 (4)** 0.15 afe; 0.02 (3)* 0.095 afe; 0.009 (3) 0.081 afe; 0.009 (3) 0.075 afe; 0.012 (5)* SCN 3.55 afe; 0.26 (7) 0.97 afe; 0.05 (4)** 0.93 afe; 0.10 (5)** 2.85 afe; 0.20 (4) 3.05 afe; 0.29 (4) 4.42 afe; 0.56 (4) 3.27 afe; 0.30 (5) NO3 1.58 afe; 0.04 (10) 1.30 afe; 0.03 (3)* 1.08 afe; 0.02 (4)** 1.38 afe; 0.03 (4)* 1.43 afe; 0.04 (3) 1.62 afe; 0.03 (3) 1.71 afe; 0.06 (4) ClO4 0.25 afe; 0.01 (8) 0.19 afe; 0.00 (3)* 0.17 afe; 0.03 (4)* 0.23 afe; 0.04 (3) 0.15 afe; 0.01 (4)** - 0.24 afe; 0.02 (3) Formate 0.24 afe; 0.01 (9) 0.27 afe; 0.02 (3) 0.33 afe; 0.03 (4)* 0.35 afe; 0.02 (3)* 0.24 afe; 0.01 (3) - 0.28 afe; 0.01 (3) Acetate 0.091 afe; 0.003 (10) 0.073 afe; 0.004 (3)* 0.12 afe; 0.02 (5) - 0.092 afe; 0.014 (4) - 0.076 afe; 0.007 (3) Naaf9; 0.007 afe; 0.010 (24) 0.001 afe; 0.018 (3) 0.001 afe; 0.021 (5) - 0.002 afe; 0.004 (3) - - Relative permeabilities for different anions present in the intracellular solution under biionic conditions were calculated from macroscopic current reversal potentials (e.g., Fig. 2), according to Eq. 1 (see Materials and Methods). Login to comment