ABCC7 p.Cys592Ala
| Predicted by SNAP2: | A: N (78%), D: D (75%), E: D (53%), F: D (75%), G: D (63%), H: N (57%), I: D (66%), K: N (61%), L: N (57%), M: D (63%), N: N (66%), P: D (80%), Q: N (61%), R: N (66%), S: D (53%), T: N (66%), V: D (63%), W: D (80%), Y: D (75%), |
| Predicted by PROVEAN: | A: N, D: D, E: D, F: D, G: N, H: D, I: D, K: D, L: D, M: D, N: D, P: D, Q: D, R: D, S: N, T: D, V: D, W: D, Y: D, |
[switch to compact view]
Comments [show]
None has been submitted yet.
[hide] In vivo phosphorylation of CFTR promotes formation... EMBO J. 2006 Oct 18;25(20):4728-39. Epub 2006 Oct 12. Mense M, Vergani P, White DM, Altberg G, Nairn AC, Gadsby DC
In vivo phosphorylation of CFTR promotes formation of a nucleotide-binding domain heterodimer.
EMBO J. 2006 Oct 18;25(20):4728-39. Epub 2006 Oct 12., 2006-10-18 [PMID:17036051]
Abstract [show]
The human ATP-binding cassette (ABC) protein CFTR (cystic fibrosis transmembrane conductance regulator) is a chloride channel, whose dysfunction causes cystic fibrosis. To gain structural insight into the dynamic interaction between CFTR's nucleotide-binding domains (NBDs) proposed to underlie channel gating, we introduced target cysteines into the NBDs, expressed the channels in Xenopus oocytes, and used in vivo sulfhydryl-specific crosslinking to directly examine the cysteines' proximity. We tested five cysteine pairs, each comprising one introduced cysteine in the NH(2)-terminal NBD1 and another in the COOH-terminal NBD2. Identification of crosslinked product was facilitated by co-expression of NH(2)-terminal and COOH-terminal CFTR half channels each containing one NBD. The COOH-terminal half channel lacked all native cysteines. None of CFTR's 18 native cysteines was found essential for wild type-like, phosphorylation- and ATP-dependent, channel gating. The observed crosslinks demonstrate that NBD1 and NBD2 interact in a head-to-tail configuration analogous to that in homodimeric crystal structures of nucleotide-bound prokaryotic NBDs. CFTR phosphorylation by PKA strongly promoted both crosslinking and opening of the split channels, firmly linking head-to-tail NBD1-NBD2 association to channel opening.
Comments [show]
None has been submitted yet.
No. Sentence Comment
29 B Resting Stimulated 16CS+C590V/C592V 16CS+C590L/C592L 16CS+C590F/C592F 16CS+C590T/C592T 16CS+C590S/C592S 16CS+C590/C592 16CS+C590A/C592A A 200 s 5 µA WT CFTR Cys-free CFTR 16CS+C590L/C592L 0 25 50 75 100 125 150 175 WT CFTR Whole-oocyte conductance (µS) 16CS+C590V/C592V 16CS+C590/C592 C (2.5 ng cRNA) (20 ng cRNA) 250 160 105 75 kD cRNA (ng) 0.25 20 2.5 20 WT CFTR 16CS+ C590V/C592V 1 2 3 4 Mature Core D Uninjected oocyte 40 µM forskolin 40 µM forskolin 40 µM forskolin Washout Washout Washout Figure 2 Expression and function of cysteine-deficient CFTR channels in Xenopus oocytes.
X
ABCC7 p.Cys592Ala 17036051:29:132
status: NEW199 For recording macroscopic currents of split CFTR channels in excised patches (Figure 10), oocytes were Table I Forward primers for site-directed mutagenesis PCR C76S 50 -GCCCTTCGGCGATcgTTTTTCTGGAG-30 C276S 50 -CTGTTAAGGCCTACTcCTGGGAAGAAGC-30 C832S 50 -CGAAGAAGACCTTAAGGAGTcCTTTTTTGATGATATGGAGAGC-30 EagI site 50 -GGTAAAATTAAGCACAGcGGccGAATTTCATTCTGTTCTC-30 HA epitope 50 -CGGGCCGCCATGtAcccatAcGACGttccgGAttAcgcaAGGTCGCCTCTGG-30 CFTR 16CS C590A/C592A 50 -GGAGATCTTCGAGAGCgCTGTCgCTAAACTGATGGC-30 CFTR 16CS C590F/C592F 50 -GGAGATCTTCGAGAGCTtTGTCTtTAAACTGATGGC-30 CFTR 16CS C590L/C592L 50 -GGAGATCTTCGAGAGCctTGTCctTAAACTGATGGC-30 CFTR 16CS C590T/C592T 50 -GGAGATCTTCGAGAGCaCTGTCaCTAAACTGATGGC-30 CFTR 16CS C590V/C592V 50 -GGAGATCTTCGAGAGCgtcGTCgtTAAACTGATGGC-30 S434C 50 -CCTCTTCTTCAGTAATTTCTgtCTaCTTGGTACTCCTGTC-30 S459C 50 -GTTGGCGGTTGCTGGATgCACTGGAGCAGGCAAG-3 A462C 50 -GCTGGATCCACTGGGtgcGGCAAGACTTCACTTC-30 L549C 50 -GGTGGAATCACACtatGcGGAGGTCAACGAGCACG-30 S605C 50 -GGATTTTGGTCACaTgTAAAATGGAAC-30 S1248C 50 -CCTCTTGGGAAGAACCGGtTgtGGGAAGAGTAC-30 D1336C 50 -GTTTCCTGGGAAGCTTtgCTTTGTCCTTGTGG-30 L1346C 50 -GGATGGGGGCTCTGTCTgtAGTCATGGCCACAAGC-30 A1374C 50 -GATGAACCAAGCtgTCATTTAGATCC-30 V1379C 50 -GCTCATTTAGATCCgtgcACATACCAAATAATTCG-30 The underlined bases are the codons for the introduced serines, cysteines or other residues; lowercase letters mark base changes from the original sequence, including those for introducing diagnostic restriction endonuclease sites.
X
ABCC7 p.Cys592Ala 17036051:199:444
status: NEW