ABCC7 p.Ser768Thr
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PMID: 21059651
[PubMed]
Wang G et al: "The inhibition mechanism of non-phosphorylated Ser768 in the regulatory domain of cystic fibrosis transmembrane conductance regulator."
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Sentence
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166
Because S768T strongly enhanced PKA dependence in the presence of ATP and curcumin, S768T may be a stronger H-bond donor FIGURE 4. Effects of curcumin on CFTR constructs at the R-CL3 interface in the presence of ATP.
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ABCC7 p.Ser768Thr 21059651:166:8
status: NEWX
ABCC7 p.Ser768Thr 21059651:166:84
status: NEW234 Error bars, S.E. TABLE 1 Potential roles in hydrogen bonding at the CL3-R domain interface Note that mutants whose channel activity was increased by curcumin in the presence of ATP are highlighted in boldface type. Residues Role in H-bond Mutants Arg Strong donor H950R, S768R, H950R/S768R, H950R/S768D, H950D/S768R Asp Strong acceptor H950D, S768D, H950D/S768D, H950R/S768D, H950D/S768R Thr, Gln, Ser, His Donor/Acceptor H950Q, S768T, WT Ala Negative control K946A, H950A, K951A, H954A, S955A, Q958A, S737A, S768A, ⌬R Inhibition of CFTR by Ser768 JANUARY 21, 2011•VOLUME 286•NUMBER 3 JOURNAL OF BIOLOGICAL CHEMISTRY 2177 matter whether cAMP was present or not in the extracellular perfusate.
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ABCC7 p.Ser768Thr 21059651:234:429
status: NEW