2012
DOI: 10.1074/jbc.m112.371138
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Conformational Changes Relevant to Channel Activity and Folding within the first Nucleotide Binding Domain of the Cystic Fibrosis Transmembrane Conductance Regulator

Abstract: Background:The CFTR chloride channel undergoes conformational changes during its gating cycle. Results: H620Q mutation associated with increased channel P o , and the corrector/potentiator CFFT-001 both lead to similar conformational shifts in NBD1. Conclusion:There is an intrinsic conformational equilibrium within NBD1 that is correlated with channel activity. Significance: Conformational fluctuations within NBD1 are fundamental to CFTR regulation.

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Cited by 47 publications
(75 citation statements)
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“…Hydrogen/deuterium (H/D) exchange experiments show that the amide protons in this a-helix readily exchange in solution, indicating that the helix is unstable . NMR-derived chemical shifts provide evidence that the preceding two helices (H8 and H9) also exchange with a coil conformation (Hudson et al 2012). Crystal structures show short helices at both the amino and carboxyl termini of the RI; however, electron density is absent for the central portion, implying that this region of the RI is disordered.…”
Section: Nbd1mentioning
confidence: 97%
“…Hydrogen/deuterium (H/D) exchange experiments show that the amide protons in this a-helix readily exchange in solution, indicating that the helix is unstable . NMR-derived chemical shifts provide evidence that the preceding two helices (H8 and H9) also exchange with a coil conformation (Hudson et al 2012). Crystal structures show short helices at both the amino and carboxyl termini of the RI; however, electron density is absent for the central portion, implying that this region of the RI is disordered.…”
Section: Nbd1mentioning
confidence: 97%
“…4) shows that R region binding causes moderate, but significant, chemical shift changes throughout NBD1 (Fig. 4B) using previously obtained assignments for NBD1 (27). These wide-spread chemical shifts are likely because of the shallow energy landscape of NBD1 that facilitates allosteric effects caused by the binding (27,28), and they are difficult to simply interpret in terms of direct contacts.…”
Section: R Region Binds Multiple Partners In a Phosphorylation-dependentmentioning
confidence: 99%
“…4B) using previously obtained assignments for NBD1 (27). These wide-spread chemical shifts are likely because of the shallow energy landscape of NBD1 that facilitates allosteric effects caused by the binding (27,28), and they are difficult to simply interpret in terms of direct contacts. Resonance broadening, however, is localized primarily to two distinct sites around residues 593 and 618, suggesting that these represent effects of direct interaction (Fig.…”
Section: R Region Binds Multiple Partners In a Phosphorylation-dependentmentioning
confidence: 99%
“…1A). Transmembrane helix predictions (50), sequence alignments (38,44), and homology models (44) of SUR2B based on structures of other ABC proteins (51-57) indicate that transmembrane helix 11 ends at Val-599, that residues Gln-600 -Leu-607 extend transmembrane helix 11 into the cytoplasm, and that NBD1 begins at Asp-665 (Fig. 1A).…”
Section: Identification Of Phosphorylation Sites In Sur2b Nbd1-mentioning
confidence: 99%