ABCC7 p.Arg334Glu
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PMID: 12679372
[PubMed]
Gong X et al: "Molecular determinants and role of an anion binding site in the external mouth of the CFTR chloride channel pore."
No.
Sentence
Comment
53
Block of wild-type, R334C-, R334E-, R334H-, R334K-, R334L- and R334Q-CFTR by 100 mM and 1 mM intracellular Au(CN)2 _ are compared in Fig. 4B.
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ABCC7 p.Arg334Glu 12679372:53:28
status: NEW54 Block was affected in all mutants, depending on the ionic conditions used, but was particularly weakened in R334C, R334E and R334K (Fig. 5A-C).
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ABCC7 p.Arg334Glu 12679372:54:115
status: NEW93 As noted by Smith et al. (2001), this effect was clearly charge dependent, being strongest in R334E and weak (but still significant) in R334K.
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ABCC7 p.Arg334Glu 12679372:93:94
status: NEW111 Each of the mutations R334C, R334E and X. Gong and P. Linsdell394 J Physiol549.2 Figure 8.
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ABCC7 p.Arg334Glu 12679372:111:29
status: NEW141 With either Cl_ or gluconate in the extracellular solution, Au(CN)2 _ block was most dramatically weakened in the mutants R334C, R334E and R334K, which involve replacement of the positively charged arginine side chain with one neutral side chain (cysteine), one negatively charged side chain (glutamate) and one positively charged side chain Anion binding site in the CFTR pore outer mouthJ Physiol 549.2 395 (lysine).
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ABCC7 p.Arg334Glu 12679372:141:129
status: NEW
PMID: 17673962
[PubMed]
Zhou JJ et al: "Direct and indirect effects of mutations at the outer mouth of the cystic fibrosis transmembrane conductance regulator chloride channel pore."
No.
Sentence
Comment
85
Figure 3 shows the blocking effects of internally applied Pt(NO2)4 2À in six different channel mutants (R334C, R334E, R334H, R334K, R334L, R334Q) under conditions of both low (Fig. 3a) and high (Fig. 3b) extracellular ClÀ concentration.
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ABCC7 p.Arg334Glu 17673962:85:116
status: NEW90 With low extracellular ClÀ concentrations, the Kd for Pt(NO2)4 2À block (at 0 mV) was significantly increased in all six R334 mutants studied (Fig. 5a), although it is clear that R334C and R334E had far greater effects on Kd compared to other amino acid substitutions.
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ABCC7 p.Arg334Glu 17673962:90:199
status: NEW91 With elevated extracellular ClÀ , the Kd(0) was significantly increased only in R334C and R334E; not significantly altered in R334K, R334L and R334Q; and significantly decreased in R334H (Fig. 5b).
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ABCC7 p.Arg334Glu 17673962:91:95
status: NEW106 Comparison of the mean Kd estimated for suramin (at 0 mV) shows that R334C, R334E, R334K, R334L and R334Q were all associated with weakened suramin block, with only R334H failing to significantly affect suramin block (Fig. 7).
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ABCC7 p.Arg334Glu 17673962:106:76
status: NEW107 Suramin block was particularly weakened in R334C and R334E (Figs. 6, 7) such that the profiles of mutation effects on block by internal Pt(NO2)4 2À and suramin are very similar.
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ABCC7 p.Arg334Glu 17673962:107:53
status: NEW129 Mean of data from three to eight patches. Fitted lines are to equation 1 as described in Figure 1 for wild type and R334Q and with the following parameters for other channel variants: R334C 4 mM external ClÀ , Kd(0) = 1362 lM, zd = À0.295; R334C 154 mM external ClÀ , Kd(0) = 836 lM, zd = À0.219; R334E 4 mM external ClÀ , Kd(0) = 759 lM, zd = À0.376; R334E 154 mM external ClÀ , Kd(0) = 564 lM, zd = À0.173; R334H 4 mM external ClÀ , Kd(0) = 140 lM, zd = À0.166; R334H 154 mM external ClÀ , Kd(0) = 119 lM, zd = À0.149; R334K 4 mM external ClÀ , Kd(0) = 143 lM, zd = À0.314; R334K 154 mM external ClÀ , Kd(0) = 317 lM, zd = À0.374; R334L 4 mM external ClÀ , Kd(0) = 176 lM, zd = À0.258; R334L 154 mM external ClÀ , Kd(0) = 284 lM, zd = À0.366 extracellular Pt(NO2)4 2À by normalizing current amplitude at the hyperpolarized extreme of the voltage range studied, -80 mV (Fig. 10b).
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ABCC7 p.Arg334Glu 17673962:129:317
status: NEWX
ABCC7 p.Arg334Glu 17673962:129:382
status: NEW159 These plots represent mean data from four to seven patches. Fitted lines are to equation 1 with the following parameters: wild type, Kd(0) = 2.51 lM, zd = À0.042; R334C, Kd(0) = 18.5 lM, zd = À0.056; R334E, Kd(0) = 25.0 lM, zd = À0.107; R334H, Kd(0) = 3.10 lM, zd = À0.085; R334K, Kd(0) = 6.31 lM, zd = À0.232; R334L, Kd(0) = 4.08 lM, zd = À0.061; R334Q, Kd(0) = 6.64 lM, zd = À0.239 with our previous suggestion that intracellular Au(CN)2 À blocks the channel by interacting directly with R334, several reasons prompt us to suggest that Pt(NO2)4 2À does not interact directly with the arginine side chain at this position.
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ABCC7 p.Arg334Glu 17673962:159:210
status: NEW162 Thus, while Pt(NO2)4 2À block is particularly weak in R334C and R334E (Figs. 3-5), there is no strong correlation between the apparent affinity of Pt(NO2)4 2À block and the nature of the side chain present at position 334.
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ABCC7 p.Arg334Glu 17673962:162:69
status: NEW166 The similar effects of mutations on block by intracellular suramin and intracellular Pt(NO2)4 2À - in particular, the strong effects of R334C and R334E on the inhibitory effects of both blockers - suggest that these mutations affect suramin block and Pt(NO2)4 2À block by a common mechanism.
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ABCC7 p.Arg334Glu 17673962:166:151
status: NEW221 However, disruption of the effects of intracellular blockers is particularly pronounced in R334C and R334E (Figs. 5, 7).
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ABCC7 p.Arg334Glu 17673962:221:101
status: NEW222 Currently, we have no explanation as to why R334C and R334E have so much more dramatic effects on block by intracellular Pt(NO2)4 2À and suramin than other R334 mutations.
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ABCC7 p.Arg334Glu 17673962:222:54
status: NEW228 ), R334E (5), R334H (j), R334K (), R334L (h), R334Q (u); c wild type (d), K95Q (m), R303Q (Å).
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ABCC7 p.Arg334Glu 17673962:228:3
status: NEW
PMID: 9813087
[PubMed]
Jiang Q et al: "Cystic fibrosis transmembrane conductance regulator-associated ATP release is controlled by a chloride sensor."
No.
Sentence
Comment
321
The number of oocytes (N) compiled for each mutant are given with the number of independent experiments for wtCFTR ϭ 3, R347P ϭ 2, R334E ϭ 3, R334W ϭ 2, and water ϭ 3.
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ABCC7 p.Arg334Glu 9813087:321:143
status: NEW
PMID: 15361410
[PubMed]
Liu X et al: "CFTR: a cysteine at position 338 in TM6 senses a positive electrostatic potential in the pore."
No.
Sentence
Comment
184
To investigate the effect of charge at position 334 on the titration behavior of T338C CFTR, we examined the conductance of oocytes expressing double mutants, T338C/R334A, T338C/R334E, and T338C/R334D CFTR.
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ABCC7 p.Arg334Glu 15361410:184:178
status: NEW185 Shown in Fig. 8 A are representative titration curves for the conductance for T338C CFTR and two of these double mutants (n ¼ 5 each).
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ABCC7 p.Arg334Glu 15361410:185:178
status: NEW187 The substitution of acidic residues, however, did not result in a large additional shift of the apparent pKa to more alkaline values (8.84 6 0.05 for T338C/R334D CFTR, n ¼ 4 and 8.96 6 0.08 for T338C/R334E CFTR, n ¼ 5).
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ABCC7 p.Arg334Glu 15361410:187:205
status: NEW221 FIGURE 8 The pH-induced changes in the conductances of oocytes expressing T338C/R334A, T338C/R334E, T338H, or T338H/R334C CFTR.
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ABCC7 p.Arg334Glu 15361410:221:93
status: NEW222 (A) Sample titration curves of conductances of oocytes expressing T338C CFTR (solid circles), T338C/R334A (open squares), or T338C/ R334E CFTRs (shaded triangles).
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ABCC7 p.Arg334Glu 15361410:222:93
status: NEWX
ABCC7 p.Arg334Glu 15361410:222:132
status: NEW342 A comparison of T338C/R334A (pKa ¼ 8.8) with T338C/R334E (pKa ¼ 8.9), would suggest a further change in Cq o of ;ÿ6 mV.
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ABCC7 p.Arg334Glu 15361410:342:56
status: NEW360 It would not be surprising to find that the thiolate- arginine ion pair of T338C/R334 was closer together than the thiolate-glutamic acid pair of T338C/R334E, even if there were no major change in structure that accompanied the mutations.
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ABCC7 p.Arg334Glu 15361410:360:152
status: NEW188 The substitution of acidic residues, however, did not result in a large additional shift of the apparent pKa to more alkaline values (8.84 6 0.05 for T338C/R334D CFTR, n &#bc; 4 and 8.96 6 0.08 for T338C/R334E CFTR, n &#bc; 5).
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ABCC7 p.Arg334Glu 15361410:188:204
status: NEW223 (A) Sample titration curves of conductances of oocytes expressing T338C CFTR (solid circles), T338C/R334A (open squares), or T338C/ R334E CFTRs (shaded triangles).
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ABCC7 p.Arg334Glu 15361410:223:132
status: NEW344 A comparison of T338C/R334A (pKa &#bc; 8.8) with T338C/R334E (pKa &#bc; 8.9), would suggest a further change in Cq o of ;6 mV.
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ABCC7 p.Arg334Glu 15361410:344:55
status: NEW361 It would not be surprising to find that the thiolate- arginine ion pair of T338C/R334 was closer together than the thiolate-glutamic acid pair of T338C/R334E, even if there were no major change in structure that accompanied the mutations.
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ABCC7 p.Arg334Glu 15361410:361:152
status: NEW
PMID: 9512029
[PubMed]
Mansoura MK et al: "Cystic fibrosis transmembrane conductance regulator (CFTR) anion binding as a probe of the pore."
No.
Sentence
Comment
229
Hipper et al. (1995) reported that the mutations R334E, R334H, K335E, K335H, R347E, and R347H did not alter CFTR conduction properties, but careful inspection of the data presented revealed that the level of CFTR expression was very low so that altered properties of mutant CFTRs might have been easily obscured.
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ABCC7 p.Arg334Glu 9512029:229:49
status: NEW
PMID: 7589561
[PubMed]
Hipper A et al: "Mutations in the putative pore-forming domain of CFTR do not change anion selectivity of the cAMP activated Cl- conductance."
No.
Sentence
Comment
6
The following mutations were examined: K335E, R347E, R334E, K335H, R347H, R334H.
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ABCC7 p.Arg334Glu 7589561:6:53
status: NEW32 Synthesis of mutated CFTR-cDNA was induced by annealing of ampicillin repair oligonucleotide and oligonucleotide primers carrying the respective mutation changing positively charged to negatively charged amino acids (R334E, R347E, K335E) or replacing R and K at these positions by histidines (R334H, R347H, K335H).
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ABCC7 p.Arg334Glu 7589561:32:217
status: NEW80 Next, positively charged amino acids R334, R347, K335 located in the putative 6th pore forming transmembrane a-helical domain of CFTR, were exchanged by histidines (R334H, R347H, K335H) or by the negatively charged glutamate (R334E, R347E, K335E).
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ABCC7 p.Arg334Glu 7589561:80:226
status: NEW81 Wc conductances were activated significantly by IBMX in all 6 mutants but to variable degrees (AG in/.tS): 3.2 + 0.6 (R334E, n = 20), 2.7 + 0.6 (R334H, n = 13), 7.1 + 0.9 (K335E, n-- 20), 2.8 + 0.7 (K335H, n = 10), 3.2 + 0.04 (R347E, n = 32) and 1.8 + 0.3 (R347H, n = 10).
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ABCC7 p.Arg334Glu 7589561:81:118
status: NEW90 It was 2.2 + 0.3 (wt CFTR, n = 17) and 2.0 _+0.2 (R334E, n -- 19), respectively.
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ABCC7 p.Arg334Glu 7589561:90:50
status: NEW108 In the present study we repeated some of the published (K335E, R347E, R347H) and performed additional mutations (R334E, R334H, K335H) which are all located in the putative sixth transmembrane domain and overexpressed the respective CFTRs in oocytes.
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ABCC7 p.Arg334Glu 7589561:108:113
status: NEW
PMID: 15130785
[PubMed]
Gong X et al: "Maximization of the rate of chloride conduction in the CFTR channel pore by ion-ion interactions."
No.
Sentence
Comment
35
Results and discussion Previously we characterized the properties of six different R334 mutants (R334C, R334E, R334H, R334K, R334L, and R334Q) [19].
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ABCC7 p.Arg334Glu 15130785:35:104
status: NEW65 (A) Unitary current-voltage relationships for each of the channel variants shown in Fig. 1: (d) wild type, (r) R334C, (j) R334E, (}) R334H, (s) R334K, () R334L, (.)
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ABCC7 p.Arg334Glu 15130785:65:122
status: NEW