ABCC7 p.Lys1250Gln
| Predicted by SNAP2: | A: D (95%), C: D (95%), D: D (95%), E: D (95%), F: D (95%), G: D (95%), H: D (95%), I: D (95%), L: D (95%), M: D (95%), N: D (95%), P: D (95%), Q: D (95%), R: D (95%), S: D (95%), T: D (95%), V: D (95%), W: D (95%), Y: D (95%), |
| Predicted by PROVEAN: | A: D, C: D, D: D, E: D, F: D, G: D, H: D, I: D, L: D, M: D, N: D, P: D, Q: D, R: D, S: D, T: D, V: D, W: D, Y: D, |
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[hide] Cystic fibrosis: a multiple exocrinopathy caused b... Am J Med. 1998 Jun;104(6):576-90. Schwiebert EM, Benos DJ, Fuller CM
Cystic fibrosis: a multiple exocrinopathy caused by dysfunctions in a multifunctional transport protein.
Am J Med. 1998 Jun;104(6):576-90., [PMID:9674722]
Abstract [show]
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No. Sentence Comment
224 In NBD2, a few key mutations have been found that include missense mutations (G1349D, D1370N, K1250M, K1250Q, G1244E, S1255P) and several nonsense mutations (W1282X, S1255X, W1316X).
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ABCC7 p.Lys1250Gln 9674722:224:102
status: NEW[hide] CFTR: the nucleotide binding folds regulate the ac... J Gen Physiol. 1996 Jan;107(1):103-19. Wilkinson DJ, Mansoura MK, Watson PY, Smit LS, Collins FS, Dawson DC
CFTR: the nucleotide binding folds regulate the accessibility and stability of the activated state.
J Gen Physiol. 1996 Jan;107(1):103-19., [PMID:8741733]
Abstract [show]
The functional roles of the two nucleotide binding folds, NBF1 and NBF2, in the activation of the cystic fibrosis transmembrane conductance regulator (CFTR) were investigated by measuring the rates of activation and deactivation of CFTR Cl- conductance in Xenopus oocytes. Activation of wild-type CFTR in response to application of forskolin and 3-isobutyl-1-methylxanthine (IBMX) was described by a single exponential. Deactivation after washout of the cocktail consisted of two phases: an initial slow phase, described by a latency, and an exponential decline. Rate analysis of CFTR variants bearing analogous mutations in NBF1 and NBF2 permitted us to characterize amino acid substitutions according to their effects on the accessibility and stability of the active state. Access to the active state was very sensitive to substitutions for the invariant glycine (G551) in NBF1, where mutations to alanine (A), serine (S), or aspartic acid (D) reduced the apparent on rate by more than tenfold. The analogous substitutions in NBF2 (G1349) also reduced the on rate, by twofold to 10-fold, but substantially destabilized the active state as well, as judged by increased deactivation rates. In the putative ATP-binding pocket of either NBF, substitution of alanine, glutamine (Q), or arginine (R) for the invariant lysine (K464 or K1250) reduced the on rate similarly, by two- to fourfold. In contrast, these analogous substitutions produced opposite effects on the deactivation rate. NBF1 mutations destabilized the active state, whereas the analogous substitutions in NBF2 stabilized the active state such that activation was prolonged compared with that seen with wild-type CFTR. Substitution of asparagine (N) for a highly conserved aspartic acid (D572) in the ATP-binding pocket of NBF1 dramatically slowed the on rate and destabilized the active state. In contrast, the analogous substitution in NBF2 (D1370N) did not appreciably affect the on rate and markedly stabilized the active state. These results are consistent with a hypothesis for CFTR activation that invokes the binding and hydrolysis of ATP at NBF1 as a crucial step in activation, while at NBF2, ATP binding enhances access to the active state, but the rate of ATP hydrolysis controls the duration of the active state. The relatively slow time courses for activation and deactivation suggest that slow processes modulate ATP-dependent gating.
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No. Sentence Comment
60 Representative time courses are shown for wild type CFTR and two variants, K464Q and K1250Q.
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ABCC7 p.Lys1250Gln 8741733:60:85
status: NEW64 The transient increase in gel was most evident for wild-type CFTR and mutants such as K1250Q, which remained fully activated for several minutes after washout of IBMX.
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ABCC7 p.Lys1250Gln 8741733:64:86
status: NEW65 In contrast, the decline in gel for mutants such as K464Q was rapid, showing only a slight increase after IBMX withdrawal.
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ABCC7 p.Lys1250Gln 8741733:65:86
status: NEW76 (A) Representative time courses for deactivation of wild type CFTR (0) and the analogous lysine to glutamine mutants in NBF1 (K464Q, A) and NBF2 (K1250Q, ~).
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ABCC7 p.Lys1250Gln 8741733:76:146
status: NEW79 In the experiments shown, the values of gel(max) for wild-type CFTR, K464Q, and K1250Q were 27.9, 36.3, and 30.3 I,S, and the corresponding minimum membrane conductances alter deactivation of CFTR were 2.1, 0.7, and 1.0 ~S, respectively.
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ABCC7 p.Lys1250Gln 8741733:79:80
status: NEW281 + kott) (10-3 min-l kon kofr latency *k~m CFTR (mM) n (10-3min-]) mM-1) (10-3min 1) (10-3min-l) n (min) (10 3min i) n wt 0.65 • 0.08 26 664 • 51 118 • 9 558 • 45 76-+ 6 20 6.0 • 0.3 88 • 6 16 K464R 2.6 • 0.1": 4 153 + 20**+ 20 • 3*** 101 • 13''` 52 • 7*: 5 1.3 • 0.2*++ 174 • 14"** 7 K464Q 3.3 • 0.5"* 5 331 • 56*** 40 -+ 7* 199 • 34* 132 • 22*'` 5 1.9 • 0.3"I 142 -+ 19''` 5 K464A 4.6 • 0.7** 6 289 • 49* 30 • 5** 151 • 26*** 139 • 24*: 7 1.1 • 0.1"** 133 • 14"** 8 D572N 9.3 + 0.02*: 6 106 • 7*: 7-+0.5*: 37-+3*** 69 • 5+* 4 0.9 • 0.2*** 245 • 32*: 3 K1250R 0.17 • 0.07*: 5 239 •33*** 46 -+ 6"+* 231 • 32*: 8 • 1": 10 10.4 • 0.8"~ 100 • 7** 6 K1250Q 0.12 • 0.04*** 5 150 • 18''` 29 • 4* 146 -+ 18" 4 + 0.4"I 5 22.3 • 2.4*: 30 •5": 5 K1250A 0.07 + 0.02*: 10 218 • 18" 43 • 4*'` 215 • 18": 3 -+0.3*~* 5 15.6-+ 1.0"** 43 -+5** 5 D1370N 0.16 + 0.04*'` 7 449 - 79*: 87 • 15: 435 +76** 14 - 2*: 5 16.3-4-1.2"" 69-+ 6** 5 The symbols (*) and ('`) indicate significant differences from wild-type CFTR and the analogous mutant, respectively (P < 0.05).
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ABCC7 p.Lys1250Gln 8741733:281:883
status: NEW61 Representative time courses are shown for wild type CFTR and two variants, K464Q and K1250Q.
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ABCC7 p.Lys1250Gln 8741733:61:85
status: NEW77 (A) Representative time courses for deactivation of wild type CFTR (0) and the analogous lysine to glutamine mutants in NBF1 (K464Q, A) and NBF2 (K1250Q, ~).
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ABCC7 p.Lys1250Gln 8741733:77:146
status: NEW80 In the experiments shown, the values of gel(max) for wild-type CFTR, K464Q, and K1250Q were 27.9, 36.3, and 30.3 I,S, and the corresponding minimum membrane conductances alter deactivation of CFTR were 2.1, 0.7, and 1.0 ~S, respectively.
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ABCC7 p.Lys1250Gln 8741733:80:80
status: NEW283 + kott) (10-3 min-l kon kofr latency *k~m CFTR (mM) n (10-3 min-]) mM-1) (10-3 min 1) (10-3min-l) n (min) (10 3min i) n wt 0.65 ߦ 0.08 26 664 ߦ 51 118 ߦ 9 558 ߦ 45 76 -+ 6 20 6.0 ߦ 0.3 88 ߦ 6 16 K464R 2.6 ߦ 0.1": 4 153 + 20**+ 20 ߦ 3*** 101 ߦ 13''` 52 ߦ 7*: 5 1.3 ߦ 0.2*++ 174 ߦ 14"** 7 K464Q 3.3 ߦ 0.5"* 5 331 ߦ 56*** 40 -+ 7* 199 ߦ 34* 132 ߦ 22*'` 5 1.9 ߦ 0.3"I 142 -+ 19''` 5 K464A 4.6 ߦ 0.7** 6 289 ߦ 49* 30 ߦ 5** 151 ߦ 26*** 139 ߦ 24*: 7 1.1 ߦ 0.1"** 133 ߦ 14"** 8 D572N 9.3 + 0.02*: 6 106 ߦ 7*: 7 -+0.5*: 37 -+3*** 69 ߦ 5+* 4 0.9 ߦ 0.2*** 245 ߦ 32*: 3 K1250R 0.17 ߦ 0.07*: 5 239 ߦ 33*** 46 -+ 6"+* 231 ߦ 32*: 8 ߦ 1": 10 10.4 ߦ 0.8"~ 100 ߦ 7** 6 K1250Q 0.12 ߦ 0.04*** 5 150 ߦ 18''` 29 ߦ 4* 146 -+ 18" 4 + 0.4"I 5 22.3 ߦ 2.4*: 30 ߦ 5": 5 K1250A 0.07 + 0.02*: 10 218 ߦ 18" 43 ߦ 4*'` 215 ߦ 18": 3 -+0.3*~* 5 15.6 -+ 1.0"** 43 -+5** 5 D1370N 0.16 + 0.04*'` 7 449 - 79*: 87 ߦ 15: 435 + 76** 14 - 2*: 5 16.3 -4-1.2"" 69 -+ 6** 5 The symbols (*) and ('`) indicate significant differences from wild-type CFTR and the analogous mutant, respectively (P < 0.05).
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ABCC7 p.Lys1250Gln 8741733:283:855
status: NEW[hide] Functional roles of the nucleotide-binding folds i... Proc Natl Acad Sci U S A. 1993 Nov 1;90(21):9963-7. Smit LS, Wilkinson DJ, Mansoura MK, Collins FS, Dawson DC
Functional roles of the nucleotide-binding folds in the activation of the cystic fibrosis transmembrane conductance regulator.
Proc Natl Acad Sci U S A. 1993 Nov 1;90(21):9963-7., [PMID:7694298]
Abstract [show]
The cystic fibrosis transmembrane conductance regulator (CFTR), a member of the traffic ATPase superfamily, possesses two putative nucleotide-binding folds (NBFs). The NBFs are sufficiently similar that sequence alignment of highly conserved regions can be used to identify analogous residues in the two domains. To determine whether this structural homology is paralleled in function, we compared the activation of chloride conductance by forskolin and 3-isobutyl-1-methylxanthine in Xenopus oocytes expressing CFTRs bearing mutations in NBF1 or NBF2. Mutation of a conserved glycine in the putative linker domain in either NBF produced virtually identical changes in the sensitivity of chloride conductance to activating conditions, and mutation of this site in both NBFs produced additive effects, suggesting that in the two NBFs this region plays a similar and critical role in the activation process. In contrast, amino acid substitutions in the Walker A and B motifs, thought to form an integral part of the nucleotide-binding pockets, produced strikingly different effects in NBF1 and NBF2. Substitutions for the conserved lysine (Walker A) or aspartate (Walker B) in NBF1 resulted in a marked decrease in sensitivity to activation, whereas the same changes in NBF2 produced an increase in sensitivity. These results are consistent with a model for the activation of CFTR in which both NBF1 and NBF2 are required for normal function but in which either the nature or the exact consequences of nucleotide binding differ for the two domains.
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No. Sentence Comment
60 For this reason, expression levels for easily activated constructs (wild type, G551A, G1349A, K1250Q, and D1370N) were adjusted by reducing the amount of injected RNA so that the maximum Cl- conductance was similar to that attained by less sensitive constructs.
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ABCC7 p.Lys1250Gln 7694298:60:94
status: NEW93 a) 40 E (1'- 20- Y + F-V K1250Q ( 4) 0 T~ ~ ~~~ /,/ I I I I T/T /V10 T/ v ~~~I I~~~~~~~~~ V V O ° ~~~~~T/ Q .y 1 0.02 0.05 0.2 0.5 1 IBMX, mM 2 5 FIG. 4.
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ABCC7 p.Lys1250Gln 7694298:93:25
status: NEW