ABCC7 p.Arg347Cys

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PMID: 16442101 [PubMed] Frelet A et al: "Insight in eukaryotic ABC transporter function by mutation analysis."
No. Sentence Comment
394 They are positively charged amino acids [171], conserved across species and associated with CF: R334Q/W and R347C/H/L/P.
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ABCC7 p.Arg347Cys 16442101:394:108
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PMID: 10026154 [PubMed] Cotten JF et al: "Cystic fibrosis-associated mutations at arginine 347 alter the pore architecture of CFTR. Evidence for disruption of a salt bridge."
No. Sentence Comment
1 To better understand the function of Arg-347 and to learn how mutations at this site disrupt channel activity, we mutated Arg-347 to Asp, Cys, Glu, His, Leu, or Lys and examined single-channel function.
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ABCC7 p.Arg347Cys 10026154:1:122
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12 At least four CF-associated mutations have been identified at position 347 in M6: R347C, R347H, R347L, and R347P, suggesting that Arg-347 is important for CFTR structure and function (13-15).2 Early studies by Sheppard et al. (7) showed that mutation of Arg-347 to proline significantly decreased single-channel conductance with little effect on CFTR trafficking to the plasma membrane.
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ABCC7 p.Arg347Cys 10026154:12:82
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24 To better understand the role of Arg-347 in CFTR structure and function, we examined the effect of mutating Arg-347 to cysteine, aspartic acid, glutamic acid, lysine, and leucine on CFTR conductance.
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ABCC7 p.Arg347Cys 10026154:24:108
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25 We examined the cytosolic pH (pHc)-dependent behavior of CFTR-R347H and that of the other residue 347 mutants both with (R347C, R347D, R347E, and R347K) and without (R347L) a pHc-titratable residue.
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ABCC7 p.Arg347Cys 10026154:25:121
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86 Visual inspection suggested that the lifetimes of OL and OB states were also influenced by the nature of the residue at position 347: R347E and R347H tended to have longer dwell times in the OL and OB states, whereas R347L, R347C, and R347D tended to display shorter dwell times.
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ABCC7 p.Arg347Cys 10026154:86:224
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113 The observable pK (0 mV) for the equilibrium between OL and OB of R347E and R347H were 6.4 and 6.3, respectively. The faster kinetics of R347D, R347C, and R347L made dwell-time analysis for these mutants less reliable.
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ABCC7 p.Arg347Cys 10026154:113:144
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117 Fig. 3B shows that R347C, R347D, and R347L did not reach a peak variance over the range of pHc studied, suggesting that their apparent pK is less than 5.0-5.5.
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ABCC7 p.Arg347Cys 10026154:117:19
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136 B, open-channel current variance of the R347C, R347D, R347L, and R347E mutants versus pHc.
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ABCC7 p.Arg347Cys 10026154:136:40
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210 The Arg-347 residue is targeted by several CF-associated mutations, R347C, R347H, R347L, and R347P (13-15).2 Our data suggest that CF-associated as well as other mutations at residue 347 affect CFTR similarly.
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ABCC7 p.Arg347Cys 10026154:210:68
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PMID: 11118444 [PubMed] Clain J et al: "Two mild cystic fibrosis-associated mutations result in severe cystic fibrosis when combined in cis and reveal a residue important for cystic fibrosis transmembrane conductance regulator processing and function."
No. Sentence Comment
14 At least four CF-associated mutations have been identified in isolation at position 347 (R347C, R347H, R347L, and R347P) and two at position 979 (D979A and D979V), suggesting that Arg-347 and Asp-979 are important for CFTR structure and/or function.
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ABCC7 p.Arg347Cys 11118444:14:89
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PMID: 11585852 [PubMed] Smith SS et al: "CFTR: covalent and noncovalent modification suggests a role for fixed charges in anion conduction."
No. Sentence Comment
25 R347C and R352C were gifts of M. Akabas (Albert Einstein College of Medicine, Bronx, NY) and used in their parent vector, pMN.
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ABCC7 p.Arg347Cys 11585852:25:0
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107 The Function of R334C and K335C CFTR Was Modified by External MTSES or MTSET but the Function of R347C and R352C CFTR Was Not Modified by these Polar Thiol Reagents Fig. 3 summarizes the results of experiments in which MTSES, MTSET, or MTSEA (100 ␮M-10 mM) were added to the solution bathing oocytes expressing wt, R334C, K335C, R347C, or R352C CFTR.
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ABCC7 p.Arg347Cys 11585852:107:97
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ABCC7 p.Arg347Cys 11585852:107:336
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122 Shown in Fig. 4 is a representative experiment in which an oocyte expressing R347C CFTR was exposed to MTS reagents.
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ABCC7 p.Arg347Cys 11585852:122:77
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124 The experiments were repeated with each of the compounds individually, both with and without prior exposure to 2-ME and in no case were we able to detect an effect on the function of R347C CFTR.
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ABCC7 p.Arg347Cys 11585852:124:183
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125 Cheung and Akabas (1996) initially reported that there was a ‫%05ف‬ decrease in the normalized current (@ -100 mV) after exposure of oocytes expressing R347C CFTR to 10 mM MTSES, 1 mM MTSET or 2.5 mM MTSEA.
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ABCC7 p.Arg347Cys 11585852:125:172
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126 However, in the course of subsequent studies by Cheung and Akabas (1997), it was discovered that the R347C construct had a substantial deletion.
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ABCC7 p.Arg347Cys 11585852:126:101
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127 MTSES or MTSET were reported as not reacting with the full-length R347C CFTR, and MTSEA was reported to cause a 19% inhibition.
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ABCC7 p.Arg347Cys 11585852:127:66
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133 Comparison of the effects of MTSES, MTSET, and MTSEA on the conductance of oocytes expressing R334C, K335C, R347C, or R352C CFTR.
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ABCC7 p.Arg347Cys 11585852:133:108
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137 MTS reagents did not discernibly alter the function of R347C CFTR expressed in oocytes.
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ABCC7 p.Arg347Cys 11585852:137:55
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PMID: 11933191 [PubMed] Ravnik-Glavac M et al: "DHPLC screening of cystic fibrosis gene mutations."
No. Sentence Comment
42 The following mutations have been studied: exon 3: W57G, R74W, R75Q, G85E, 394delTT, 405+ 1G>A; exon 4: E92X, P99L, 441delA, 444delA, 457TAT>G, D110H, R117C, R117H, A120T, 541delC, 544delCA, Q151X, 621+1G>T, 662- 2A>C; exon 7: 1078delT, F331L, R334W, I336K, R347C, R347P, A349V, R352Q, 1221delCT; exon 10: S492F, Q493X, 1609delCA, deltaI507, deltaF508; exon 11: G542X, S549N, G551D, R553X, A559T, R560K, R560T; exon 13: K716X, Q685X, G628R, L719X; exon 17b: H1054D, G1061R, 3320ins5, R1066H, R1066L, R1070Q, 3359delCT, L1077P, H1085R, Y1092X; exon 19: R1162X, 3659delC, 3662delA, 3667del4, 3737delA, I1234V, S1235R, 3849G>A; exon 20: 3860ins31,S1255X,3898insC,3905insT,D1270N, W1282X, Q1291R; and exon 21: N1303H, N1303K, W1316X.
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ABCC7 p.Arg347Cys 11933191:42:258
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100 Optimization of Temperature (OTm) for Undetected Mutations Nucleotide RTm OTm Exon Mutation change (°C) (°C) 3 W57G 301 T>G 55 57 R74W 352 C>T 55 57 7 R334W 1132 C>T 58 60 R347C 1171 C>T 58 60 10 Q493X 609 C>T 55 56 20 3905 insT 3905 insT 55 56 D1270N 3940 G>A 57 58 RTm, recommended temperature by the MELT program; OTm, optimized temperature.
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ABCC7 p.Arg347Cys 11933191:100:182
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PMID: 15880796 [PubMed] Kerem E et al: "Pharmacological induction of CFTR function in patients with cystic fibrosis: mutation-specific therapy."
No. Sentence Comment
58 C-D565G II DF508 D1507 S549R S549I S549N S549R S945D S945L H1054D G1061R L1065P R1066C R1066M L1077P H1085R N1303K G85E III G551D S492F V520F R553G R560T R560S Y569D IV R117H, R117C, R117P, R117L D1152H, L88S, G91R, E92K, Q98R, P205S, L206W, L227R, F311L, G314E, R334W, R334Q, I336K, T338I, L346P, R347C, R347H, R347L, R347P, L927P, R1070W, R1070Q V 3849 þ 10 kb C !
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ABCC7 p.Arg347Cys 15880796:58:298
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PMID: 18056267 [PubMed] Beck EJ et al: "Conformational changes in a pore-lining helix coupled to cystic fibrosis transmembrane conductance regulator channel gating."
No. Sentence Comment
100 The oocytes 750 500 250 0 µS 180012006000 s IBMX MTSEA Cd 2+ DTT 200 100 0 µS 180012006000 s IBMX DTT Cd 2+ MTSEA A B C -100 -80 -60 -40 -20 0 20 40 % Change in conductance Y325C A326C L327C I328C K329C G330C I331C I332C L333C R334C K335C I336C F337C T338C T339C I340C S341C F342C WT I344C V345C R347C M348C A349C V350C T351C Q353C * * * * * Cd 2+ 1mM MTSEA 1mM D FIGURE 1.
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ABCC7 p.Arg347Cys 18056267:100:306
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218 Finally, the MTSEA reactivity was restricted to only five of twenty-six residues in and flanking TM6 in our study, whereas in the earlier study, residues F337C, S341C, I344C, R347C, T351C, R352C, and Q353C were also shown to be accessible to MTS reagents.
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ABCC7 p.Arg347Cys 18056267:218:175
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220 However, our observations on the accessibility of R334C, K335C, and T338C and the inaccessibility of R347C are consistent with other studies (10, 11).
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ABCC7 p.Arg347Cys 18056267:220:101
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PMID: 18366345 [PubMed] Caci E et al: "Evidence for direct CFTR inhibition by CFTR(inh)-172 based on Arg347 mutagenesis."
No. Sentence Comment
127 CFTR form CFTRinh-172 Ki (μM) Hill coefficient I- influx (mM/s) n Wild-type 1.32 + - 0.25 1.03 + - 0.07 0.1336 + - 0.0107 10 S341A 0.57 + - 0.17 1.21 + - 0.37 0.0297 + - 0.0064 4 T338A 3.20 + - 0.86 1.13 + - 0.20 0.1260 + - 0.0225 4 R347A 44.98 + - 4.71** 0.91 + - 0.04 0.1288 + - 0.0154 7 R334A 2.39 + - 0.74 0.93 + - 017 0.0313 + - 0.062 4 A349S 1.23 + - 0.41 1.11 + - 0.25 0.1500 + - 0.011 4 R347D >50 Not determined 0.1160 + - 0.0136 7 R347D/D924R >50 Not determined 0.1008 + - 0.0504 4 R347C >50 Not determined 0.1437 + - 0.0123 4 Mock 0.003 + - 0.001 10 introduced a mutation at position 349 (an alanine residue replaced by a serine residue).
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ABCC7 p.Arg347Cys 18366345:127:497
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132 As found for R347A, the mutants R347C and R347D also showed a normal rate of anion transport but altered sensitivity to CFTRinh-172 (Figures 2A and 2B).
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ABCC7 p.Arg347Cys 18366345:132:32
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PMID: 18421494 [PubMed] Cui G et al: "Mutations at arginine 352 alter the pore architecture of CFTR."
No. Sentence Comment
98 Previous studies showed that both R347C and R352C either were not accessible to membrane-impermeant MTS reagents (methanethiosulfonate ethyltrimethylammonium [MTSET+ ] or methanethiosulfonate ethylsulfonate [MTSES- ]) applied to the extracellular solution or lacked significant functional consequences when modified; this suggested that both sites either were at the predicted cytoplasmic end of the pore, and therefore cytoplasmic to the narrow region, or were not pore-facing residues (Smith et al. 2001).
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ABCC7 p.Arg347Cys 18421494:98:34
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PMID: 19754156 [PubMed] Alexander C et al: "Cystic fibrosis transmembrane conductance regulator: using differential reactivity toward channel-permeant and channel-impermeant thiol-reactive probes to test a molecular model for the pore."
No. Sentence Comment
52 We proposed that these spontaneous changes, that are not seen in either wt or Cys-less CFTR, reflect the coordination of trace Table 1: Percent Change in Oocyte Conductance in the Presence of Compounda MTSETþ MTSES- [Ag(CN)2]- [Au(CN)2]- G330C O O O O I331C -51.6 ( 6.3 -28.9 ( 2.1 -63.1 ( 8.8 O I332C O O O O L333C -58.5 ( 4.8 -47.5 ( 7.6 -83.1 ( 2.2 O R334C þ76.9 ( 11.3 -84.4 ( 1.5 -67.4 ( 7.4 -41.4 ( 3.1 K335C þ10.7 ( 2.4 -37.3 ( 1.5 -29.1 ( 6.4 -54.6 ( 4.7 I336C -54.4 ( 7.9 -75.0 ( 0.6 -81.2 ( 10.5 O F337C O O -89.6 ( 1.9 -90.1 ( 1.3 T338C -37.1 ( 3.3 -85.4 ( 2.5 -75.0 ( 5.2 -88.3 ( 1.6 T339C O O -24.5 ( 7.2 O I340C O O -93.8 ( 1.0 O S341C O O -49.3 ( 4.8 O F342C O O -84.7 ( 1.8 O C343 O O O O I344C O O -66.9 ( 9.3 -77.9 ( 2.1 V345C O O -49.1 ( 9.3 O L346C O O O O R347C O O O O M348C O O -47.9 ( 8.8 -50.1 ( 3.3 A349C O O -19.0 ( 2.0 O V350C O O O O T351C O O O O R352C O O -77.5 ( 1.3 O Q353C O O -72.6 ( 4.5 -76.7 ( 2.8 a Values are means ( SE of three or more oocytes.
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ABCC7 p.Arg347Cys 19754156:52:792
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281 Note the lack of consistent results reported for F337C, S341C, I344C, R347C, T351C, R352C, and Q353C (shaded).
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ABCC7 p.Arg347Cys 19754156:281:70
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PMID: 20805575 [PubMed] Bai Y et al: "Dual roles of the sixth transmembrane segment of the CFTR chloride channel in gating and permeation."
No. Sentence Comment
82 7 out of the 25 mutant channels exhibited a reduced single-channel current amplitude, including, from extracellular to intracellular, R334C, K335C, F337C, T338C, S341C, R347C, and R352C (Fig. 2).
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ABCC7 p.Arg347Cys 20805575:82:169
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83 The single-channel amplitude is unsolv- able in the cases of R334C, S341C, R347C, and R352C due to a limited bandwidth, whereas it is 0.2-0.3 pA for Data analysis Current traces containing fewer than three channel opening levels and lasting for >1 min were selected for single-channel kinetic analysis using a program developed by L. Csanády (2000).
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ABCC7 p.Arg347Cys 20805575:83:75
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345 Indeed, in the current study, R347C is insensitive to either MTSET or MTSES.
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ABCC7 p.Arg347Cys 20805575:345:30
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PMID: 9922375 [PubMed] Sheppard DN et al: "Structure and function of the CFTR chloride channel."
No. Sentence Comment
98 These residues are conserved across spe- because I0 blocks the pore, it appears that I0 is less per- cies, and two are the site of mutations associated with meable under some conditions, including the whole cell CF: R334Q/W and R347C/H/L/P (142).
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ABCC7 p.Arg347Cys 9922375:98:228
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PMID: 9922376 [PubMed] Dawson DC et al: "CFTR: mechanism of anion conduction."
No. Sentence Comment
480 Three residues, R334C, R347C, neered cysteines can react with the charged MTS reagents in the pore interior. The potential flaw in this assumptionand R352C, were also inhibited by the larger cation MTSET0 .
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ABCC7 p.Arg347Cys 9922376:480:23
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PMID: 9089437 [PubMed] Cheung M et al: "Locating the anion-selectivity filter of the cystic fibrosis transmembrane conductance regulator (CFTR) chloride channel."
No. Sentence Comment
107 We did not measure the reaction rate constants for the most extracellular residue, I331C, because we thought that it was unlikely that the reaction rates would be voltage dependent given the absence of voltage dependence at the adjacent, more cytoplasmic residues. We also did not measure the reaction rate constants for the mutants I344C and R347C because, although MTSEAϩ reacted with these residues, MTSES- and MTSETϩ did not react with these k ψ( )( )ln k Ψ 0=( )( ) zFδ RT/( )-ln ψ= t a b l e i Second-order Rate Constants for the Reaction of the MTS Reagents with the Water-exposed Cysteine Mutants k ES (M-1s-1) k EA (M-1s-1) k ET (M-1s-1) mutant -25 mV -50 mV -75 mV -25 mV -50 mV -75 mV -25 mV -50 mV -75 mV L333C 71 Ϯ 3(3) 71 Ϯ 20(2) 71 Ϯ 23(3) 320 Ϯ 89(2) 320 Ϯ 128(2) 333 Ϯ 139(3) 952 Ϯ 136(2) 1,000 Ϯ 350(2) 1,053 Ϯ 443(2) R334C 48 Ϯ 14(2) 48 Ϯ 6(3) 44 Ϯ 8(4) 145 Ϯ 32(2) 163 Ϯ 7(2) 182 Ϯ 21(3) 444 Ϯ 49(2) 454 Ϯ 124(2) 588 Ϯ 95(3) K335C 36 Ϯ 20(3) 23 Ϯ 11(3) 27 Ϯ 16(3) 222 Ϯ 80(3) 121 Ϯ 51(4) 107 Ϯ 30(3) 217 Ϯ 111(3) 235 Ϯ 28(3) 217 Ϯ 95(4) F337C 91 Ϯ 17(2) 80 Ϯ 22(3) 71 Ϯ 20(4) 222 Ϯ 74(2) 222 Ϯ 86(3) 285 Ϯ 81(3) 740 Ϯ 246(3) 740 Ϯ 82(2) 714 Ϯ 51(2) S341C 56 Ϯ 18(3) 56 Ϯ 40(2) 43 Ϯ 12(3) 93 Ϯ 6(3) 110 Ϯ 22(3) 138 Ϯ 34(3) 690 Ϯ 356(3) 556 Ϯ 246(3) 800 Ϯ 224(4) T351C 100 Ϯ 25(5) 57 Ϯ 6(3) 26 Ϯ 9(6) 146 Ϯ 30(4) 195 Ϯ 42(4) 296 Ϯ 18(3) 308 Ϯ 47(10) 392 Ϯ 78(6) 769 Ϯ 89(5) R352C 42 Ϯ 4(3) 26 Ϯ 4(5) 21 Ϯ 6(4) 105 Ϯ 76(3) 137 Ϯ 46(3) 205 Ϯ 58(2) 417 Ϯ 138(4) 800 Ϯ 128(2) 952 Ϯ 408(2) Q353C 125 Ϯ 23(4) 51 Ϯ 12(4) 42 Ϯ 8(4) 83 Ϯ 24(4) 116 Ϯ 42(4) 160 Ϯ 92(3) 189 Ϯ 48(6) 220 Ϯ 48(3) 625 Ϯ 273(4) residues and therefore we could not determine the charge selectivity at these positions.2 The reaction rate constants that we have measured are between 10-and 500-fold slower than the rates of reaction with sulfhydryls in free solution (Table II) (Stauffer and Karlin, 1994).
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ABCC7 p.Arg347Cys 9089437:107:343
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120 2In the course of these experiments we discovered that the R347C construct that we had used previously contained a large truncation, deleting most of the R-domain to the COOH terminus.
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ABCC7 p.Arg347Cys 9089437:120:59
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121 In the full length CFTR construct the R347C mutant is accessible to MTSEAϩ which causes 19% inhibition, however, MTSES- and MTSETϩ do not react with this mutant.
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ABCC7 p.Arg347Cys 9089437:121:38
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PMID: 8930836 [PubMed] Linsdell P et al: "Disulphonic stilbene block of cystic fibrosis transmembrane conductance regulator Cl- channels expressed in a mammalian cell line and its regulation by a critical pore residue."
No. Sentence Comment
102 Since MTSET reacts covalently with cysteine residues, a very low rate of MTSET permeation would presumably be sufficient to block cysteine-substitutecl forms of CFTR such as R347C and R352C, whereas a similarly low rate of permeation byv a reversible blocker such as gluconate may not affect Cl- permeation.
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ABCC7 p.Arg347Cys 8930836:102:174
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PMID: 8744306 [PubMed] Cheung M et al: "Identification of cystic fibrosis transmembrane conductance regulator channel-lining residues in and flanking the M6 membrane-spanning segment."
No. Sentence Comment
86 The peak current at -100 mV was -7117 ± 511 nA for the wild type, and ranged from -1709 ± 124 nA for the R347C mutant to -7709 + 700 nA for the T339C mutant (Fig. 2 A).
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ABCC7 p.Arg347Cys 8744306:86:115
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91 Effects of MTS reagents on wild-type cysteines RESULTS in CFTR To identify the residues in and flanking the M6 membrane-spanning segment that are on the water-exposed surface of As reported previously (Akabas et al., 1994b), extracellular applications of the MTS reagents to Xenopus oocytes ex- L2j K329C L. _J *G330C 1331C 1332C L333C R334C K335C 1336C F337C T338C T339C 1340C S341C T342C C343,WT 1344C V345C L346C R347C M348C A349C V350C T351C R352C Q353C 0 2000 4000 6000 8000 0 25 50 PEAK CURRENTS (nA) TIME TO REACH PLATEAU (min) FIGURE 2 Peak CFTR-induced currents and time to reach the plateau current after stimulation with cAMP-activating reagents for 24 cysteine-substitution mutants and wild-type CFTR.
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ABCC7 p.Arg347Cys 8744306:91:416
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99 .0 %0-0 0 10 20 30 40 50 MTSET' d]I 0-0 cAMP 0 0 0 10 20 30 40 50 Time (min) FIGURE 3 Effect of the MTS reagents on the CFTR-induced current in oocytes expressing the R347C mutant.
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ABCC7 p.Arg347Cys 8744306:99:167
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109 Accessibility of substituted cysteines to MTSES- A 1-min application of 10 mM MTSES- significantly inhibited the CFIR-induced currents of 9 of the 24 cysteine-substituted mutants (Fig. 4 A), L333C, R334C, K335C, F337C, S341C, R347C, T351C, R352C, and Q353C.
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ABCC7 p.Arg347Cys 8744306:109:226
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116 We also examined the ability of a larger, permanently positively charged reagent, MTSET+, to react with three of the mutants, R334C, R347C, and R352C, that were susceptible to MTSEA+.
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ABCC7 p.Arg347Cys 8744306:116:133
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ABCC7 p.Arg347Cys 8744306:116:147
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117 One-minute and 8-min applications of 1 mM MTSET+ inhibited the CFTIR-mediated current of the mutants R334C by 53 ± 6% and 52 ± 7% (n = 3); R347C by 44 ± 2% and 36 + 3% (n = 3) (Fig. 3 D); and R352C by 46 ± 11% and 54.6 ± 10.5% (n = 3).
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ABCC7 p.Arg347Cys 8744306:117:149
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85 The peak current at -100 mV was -7117 &#b1; 511 nA for the wild type, and ranged from -1709 &#b1; 124 nA for the R347C mutant to -7709 + 700 nA for the T339C mutant (Fig. 2 A).
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ABCC7 p.Arg347Cys 8744306:85:113
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90 Effects of MTS reagents on wild-type cysteines RESULTS in CFTR To identify the residues in and flanking the M6 membrane-spanning segment that are on the water-exposed surface of As reported previously (Akabas et al., 1994b), extracellular applications of the MTS reagents to Xenopus oocytes ex- L2j K329C L. _J *G330C 1331C 1332C L333C R334C K335C 1336C F337C T338C T339C 1340C S341C T342C C343,WT 1344C V345C L346C R347C M348C A349C V350C T351C R352C Q353C 0 2000 4000 6000 8000 0 25 50 PEAK CURRENTS (nA) TIME TO REACH PLATEAU (min) FIGURE 2 Peak CFTR-induced currents and time to reach the plateau current after stimulation with cAMP-activating reagents for 24 cysteine-substitution mutants and wild-type CFTR.
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ABCC7 p.Arg347Cys 8744306:90:416
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98 .0 %0-0 0 10 20 30 40 50 MTSET' d]I 0-0 cAMP 0 0 0 10 20 30 40 50 Time (min) FIGURE 3 Effect of the MTS reagents on the CFTR-induced current in oocytes expressing the R347C mutant.
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ABCC7 p.Arg347Cys 8744306:98:167
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108 Accessibility of substituted cysteines to MTSES- A 1-min application of 10 mM MTSES- significantly inhibited the CFIR-induced currents of 9 of the 24 cysteine-substituted mutants (Fig. 4 A), L333C, R334C, K335C, F337C, S341C, R347C, T351C, R352C, and Q353C.
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ABCC7 p.Arg347Cys 8744306:108:226
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115 We also examined the ability of a larger, permanently positively charged reagent, MTSET+, to react with three of the mutants, R334C, R347C, and R352C, that were susceptible to MTSEA+.
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ABCC7 p.Arg347Cys 8744306:115:133
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PMID: 7526685 [PubMed] Morral N et al: "Independent origins of cystic fibrosis mutations R334W, R347P, R1162X, and 3849 + 10kbC-->T provide evidence of mutation recurrence in the CFTR gene."
No. Sentence Comment
107 1990 G--*-T R117L G. Novelli, personal communication 1171 ......... CT R347C C. Ferec, personal communication 1172 ......... G--A R347H Cremonesi et al. 1992 G I.
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ABCC7 p.Arg347Cys 7526685:107:71
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124 Two other mutations (R347H and R347L) (Cremonesi et al. 1992; Audrezet et al. 1993) have occurred at nucleotide 1172 (G--A and G--T), and another one (R347C) has occurred at nucleotide 1171, which consists of a C-*T transition (C. Ferec, personal communication).
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ABCC7 p.Arg347Cys 7526685:124:151
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PMID: 25024266 [PubMed] Cui G et al: "Three charged amino acids in extracellular loop 1 are involved in maintaining the outer pore architecture of CFTR."
No. Sentence Comment
130 This is similar to our previous findings for TM6 mutants R334C-, R352A-, R347C/H-CFTR (Cotten and Welsh, 1999; Zhang et al., 2005b; Cui et al., 2008).
X
ABCC7 p.Arg347Cys 25024266:130:73
status: NEW
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