ABCMdb

ABCC7 p.Ser795Ala

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Publications

PMID: 11053017 [PubMed] Baldursson O et al: "Contribution of R domain phosphoserines to the function of CFTR studied in Fischer rat thyroid epithelia."

No. Sentence Comment

56 In each of the serine to alanine mutants, S660A, S737A, S795A, and S813A, alanine replaced serine at the designated residue. Login to comment
108 The S795A channels generated more current, but it was still less than that produced by wild-type CFTR. Interestingly, current from the S737A variant tended to be greater than that of wild-type CFTR, although the difference was not significant. Login to comment
114 Current from the S795A variant was not different from that in wild-type CFTR. Interestingly, current generated by the S737A variant was more than twice that generated by wild-type CFTR. Login to comment
205 This result is different from studies in excised patches of membrane showing that S795A reduced open state probability (29). Login to comment

PMID: 15155835 [PubMed] Ai T et al: "Capsaicin potentiates wild-type and mutant cystic fibrosis transmembrane conductance regulator chloride-channel currents."

No. Sentence Comment

142 We further explored the action of capsaicin using CFTR mutants whose eight major PKA consensus serines are substituted with alanine (S660A, S686A, S700A, S712A, S737A, S768A, S795A, and S813A), so called S-oct-A or 8SA. Login to comment

PMID: 9305845 [PubMed] Winter MC et al: "Stimulation of CFTR activity by its phosphorylated R domain."

No. Sentence Comment

162 Mutation of the individual serines reduced Po, but to different extents: the S795A mutation had the largest effect and S737A had little or no effect in the presence of 1 mM ATP (Fig. 3a, b). Login to comment
179 a, Example of continuous single-channel tracings from wild-type CFTR and CRTR- S795A; dashed lines indicate the closed state. Login to comment
185 Number of experiments for b/c and d were: 17/6 for wild-type (WT), 8 for wild-type (-PKA), 8/7 for S660A, 5/5 for S737A, 8/6 for S795A, 9/7 for S813A, and 11/4 for S-Quad-A. Login to comment
188 0.0 0.1 0.2 0.3 0.4 0.5 0.6 Po 0 0.2 0.4 0.6 0.8 1 10 [ATP] (mM) S813A S795A S737A S660A WT (-PKA) WT Figure 4 Effect of ATP concentration on Po of CFTR containing phosphorylation site mutations. Login to comment

PMID: 9252549 [PubMed] Wilkinson DJ et al: "CFTR activation: additive effects of stimulatory and inhibitory phosphorylation sites in the R domain."

No. Sentence Comment

87 S686A 0.75 ?I 0.07 9 N PKC site S700A 0.86 t 0.07* 12 S ++ +++ S712A 0.67 t 0.12 9 N - ++ S737A 0.35 5 0.05* 8 I +++ +++ S768A 0.09 IT 0.03* 8 I - ++++ S795A 1.24 + 0.22* 9 S +++ ++++ S813A 3.18-+0.36* 6 S ++++ ++ Values of half-maximal inhibition constant for activation (KA) are means + SE by 3-isobutyl-1-methylxanthine (IBMX) obtained for wild-type cystic fibrosis transmembrane conductance regulator (CFTR) and variants with single serine-to-alanine substitutions. Login to comment
107 Symbols show averaged IBMX dose-response data for wild-type CFTR and several single-site serine-to-alanine mutants (S660A, S737A, S768A, S795A, and S813A). Login to comment

PMID: 7690753 [PubMed] Rich DP et al: "Regulation of the cystic fibrosis transmembrane conductance regulator Cl- channel by negative charge in the R domain."

No. Sentence Comment

48 Mutants are named by the number of the amino acid residue preceded by the wild-type amino acid and followed bythe aminoacid to which the residue was changed using the single-letter aminoacid code; for example,inthemutant CFTR S66OA,S737A,S795A,S813A (also called CFTR S-Quad-A for convenience), alanines are substituted for serines at amino acid positions 660, 737, 795, and 813. Login to comment
66 In vivo phosphorylation ofwild-typeand mutant CFTR CFTR S-Quad-A (S66OA,S737A,S795A,S813A), or CFTR S-Oct-A (S660A,S686A,S700A,S712A,S737A,S768A,S795A,S813A) weretran- siently expressed in HeLa cells. Login to comment
89 Functional assay of CFTR S-Quad-Aby SPQ fluorescence.The changein SPQfluorescenceis shown for HeLa cellsexpress- ing wild-type CFTR (n = 53, where n = number of cells) or CFTR S-Quad-A tS660A,S737A,S795A,S813A)(n = 53) and for virus only- infectedcells(no plasmid) as a negative control (n = 47). Login to comment
94 Single-channelanalysis of gle-channel traces from an excised, in-cell expressing CFTR S-Quad-A side-out membrane patch from a HeLa (S660A,S737A,S795A,S813A).Each trace is about 14s long. Login to comment
109 RESULTS Serine-to-Alanine Substitutionsin the R Domain Do NotAbolish CFTR Cl- Channel Activity-& a firststep to address the possibility that additional PKA phosphorylation sites might regulate CFTR, we asked whether the S-Quad-A (S660A,S737A,S795A,S813A) mutant could still bephosphorylated in vivofollowing CAMPstimulation. Login to comment
121 The single-channel open-stateprobabil- ity for wild-type CFTR (n = 14), CFTR S-Quad-A (S600A,S737A, S712A,S737A,S768A,S795A,S813A) (n = 7), or CFTR S-Oct-D (S660D,S686D,S700D,S712D,S737D,S768D,S795D,S813D)(n = 7in ATP alone (-PKA);n = 10 inPKA and ATP (+PkX))C1-channels was determined as described under "Experimental Procedures." Login to comment
123 S795A,S813A) (n = 5). Login to comment
139 CFTR (A) or CFTR S-Quad-A (S660A,S737A,S795A,S813A)( B )were transiently expressed inCOS-7 cells. Login to comment
174 Fig. 1lA shows that simultaneous substitutionof the four in vivo PKA sites with aspartates (in the S-Quad-D mutant) did not generate constitutively active CFTR C1-channels as assessed by the SPQ fluorescence assay: the mutant channels opened only after stimulation by CAMP.We observed similar results withCFTR S-Quint-D which contained substitutionsof A MockS-Hept-A C S-OCt-A transfected (A) or were transfected with pMT-CFTR S-Hept-A (S660A,S686A,S700A,S712A,S737A,S768A,S795A) (B)or pMT-CFl`R S-Oct-A FIG.9. Login to comment
176 COS-7 cells were mock- (S660A,S686A,S700A,S712A,S737A,S768A,S795A,S813A)(C). Login to comment
47 Mutants are named by the number of the amino acid residue preceded by the wild-type amino acid and followed bythe aminoacid to which the residue was changed using the single-letter amino acid code; for example,inthemutant CFTR S66OA,S737A,S795A,S813A (also called CFTR S-Quad-A for convenience), alanines are substituted for serines at amino acid positions 660, 737, 795, and 813. Login to comment
65 In vivo phosphorylation ofwild-typeand mutant CFTR CFTR S-Quad-A (S66OA,S737A,S795A,S813A), or CFTR S-Oct-A (S660A,S686A,S700A,S712A,S737A,S768A,S795A,S813A) were transiently expressed in HeLa cells. Login to comment
95 Single-channelanalysis of gle-channel traces from an excised, in-cell expressing CFTR S-Quad-A side-out membrane patch from a HeLa (S660A,S737A,S795A,S813A).Each trace is about 14s long. Login to comment
111 RESULTS Serine-to-Alanine Substitutions in the R Domain Do NotAbolish CFTR Cl-Channel Activity-& a firststep to address the possibility that additional PKA phosphorylation sites might regulate CFTR, we asked whether the S-Quad-A (S660A,S737A,S795A,S813A) mutant could still be phosphorylated in vivofollowing CAMPstimulation. Login to comment
125 S795A,S813A) (n = 5). Login to comment
142 CFTR (A) or CFTR S-Quad-A (S660A,S737A,S795A,S813A) ( B )were transiently expressed inCOS-7 cells. Login to comment
178 Fig. 1lA shows that simultaneous substitution of the four in vivo PKA sites with aspartates (in the S-Quad-D mutant) did not generate constitutively active CFTR C1-channels as assessed by the SPQ fluorescence assay: the mutant channels opened only after stimulation by CAMP.We observed similar results withCFTR S-Quint-D which contained substitutionsof A Mock S-Hept-A C S-OCt-A transfected (A) or were transfected with pMT-CFTR S-Hept-A (S660A,S686A,S700A,S712A,S737A,S768A,S795A) (B) or pMT-CFl`R S-Oct-A FIG. 9. Login to comment
180 COS-7 cells were mock- (S660A,S686A,S700A,S712A,S737A,S768A,S795A,S813A) (C). Login to comment

PMID: 7684377 [PubMed] Chang XB et al: "Protein kinase A (PKA) still activates CFTR chloride channel after mutagenesis of all 10 PKA consensus phosphorylation sites."

No. Sentence Comment

7 A previous investigationconcluded thatactivationby PKA is crit- icallydependent on phosphorylation at four of the nine predicted PKA sites in the R domain (S660A, S737A, S795A,SS13A), becausea "Quad"mutant lacking these sites couldnotbeactivated. Login to comment
37 The following mutations were introduced into CFTR, S422A (TCT to GCT), S660A (TCA to GCA), S686A (TCT to GCT), S700A (TCT toGCT), S712A (TCC to GCC), S737A (TCC to GCC), S768A (TCT toGCT), T788A (ACAto GCA),S795A (TCA to GCA), S813A (TCA to GCA), S660E (TCA to GAA),S737E (TCC to GAG), S795E (TCA to GAA), and S813E (TCA to GAA). Login to comment
39 The counterparts of CFTR cDNA in pUCF2.5 were replaced by PCR- mutated versions by interchange of the following fragments, S660A, DraIIIIEcoRI fragment, S737A, EcoRIIHpaIfragment, S795A and S813A,StyIIStyI fragment(Fig. 1A). Login to comment

PMID: 23760269 [PubMed] Billet A et al: "Role of tyrosine phosphorylation in the muscarinic activation of the cystic fibrosis transmembrane conductance regulator (CFTR)."

No. Sentence Comment

102 Carbachol Stimulates CFTR through PKA and Non-PKA Signaling Pathways-To explore PKA-independent regulation of CFTR without using inhibitors that might have confounding effects on other pathways, we studied the activation of 15SA-CFTR (S422A/S660A/S670A/S686A/T690A/S700A/S712A/ S737A/S753A/S768A/T787A/T788A/S790A/S795A/S813A). Login to comment