(13)C NMR detects conformational change in the 100-kD membrane transporter ClC-ec1.
J Biomol NMR. 2015 Jan 29;
Authors: Abraham SJ, Cheng RC, Chew TA, Khantwal CM, Liu CW, Gong S, Nakamoto RK, Maduke M
Abstract
CLC transporters catalyze the exchange of Cl(-) for H(+) across cellular membranes. To do so, they must couple Cl(-) and H(+) binding and unbinding to protein conformational change. However, the sole conformational changes distinguished crystallographically are small movements of a glutamate side chain that locally gates the ion-transport pathways. Therefore, our understanding of whether and how global protein dynamics contribute to the exchange mechanism has been severely limited. To overcome the limitations of crystallography, we used solution-state (13)C-methyl NMR with labels on methionine, lysine, and engineered cysteine residues to investigate substrate (H(+)) dependent conformational change outside the restraints of crystallization. We show that methyl labels in several regions report H(+)-dependent spectral changes. We identify one of these regions as Helix R, a helix that extends from the center of the protein, where it forms the part of the inner gate to the Cl(-)-permeation pathway, to the extracellular solution. The H(+)-dependent spectral change does not occur when a label is positioned just beyond Helix R, on the unstructured C-terminus of the protein. Together, the results suggest that H(+) binding is mechanistically coupled to closing of the intracellular access-pathway for Cl(-).
PMID: 25631353 [PubMed - as supplied by publisher]
13 C NMR detects conformational change in the 100-kD membrane transporter ClC-ec1
13 C NMR detects conformational change in the 100-kD membrane transporter ClC-ec1
Abstract
CLC transporters catalyze the exchange of Clâ?? for H+ across cellular membranes. To do so, they must couple Clâ?? and H+ binding and unbinding to protein conformational change. However, the sole conformational changes distinguished crystallographically are small movements of a glutamate side chain that locally gates the ion-transport pathways. Therefore, our understanding of whether and how global protein dynamics contribute to the exchange mechanism has been...
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01-28-2015 05:28 PM
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J Med Chem. 2014 Jul 28;
Authors: Ge X, MacRaild CA, Devine S, Debono CO, Wang G, Scammells PJ, Scanlon MJ, Anders RF, Foley M, Norton RS
Abstract
We established an efficient means of probing ligand-induced conformational change in the malaria drug target AMA1 using 19F NMR. AMA1 was labeled with 5-fluorotryptophan (5F-Trp) and...
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[NMR paper] Conformational stabilization of the membrane embedded targeting domain of the lysosomal peptide transporter TAPL for solution NMR.
Conformational stabilization of the membrane embedded targeting domain of the lysosomal peptide transporter TAPL for solution NMR.
Conformational stabilization of the membrane embedded targeting domain of the lysosomal peptide transporter TAPL for solution NMR.
J Biomol NMR. 2013 Sep 7;
Authors: Tumulka F, Roos C, Löhr F, Bock C, Bernhard F, Dötsch V, Abele R
Abstract
The ATP binding cassette transporter TAPL translocates cytosolic peptides into the lumen of lysosomes driven by the hydrolysis of ATP. Functionally, this transporter can be...
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09-10-2013 08:44 PM
[Question from NMRWiki Q&A forum] Distinguish between protonation and conformational change?
Distinguish between protonation and conformational change?
Hi all,
In a folded protein with 13C-delta labeled glutamates, how can one distinguish between chemical shift due to protonation and chemical shift due to conformational changes?
Thanks.
nmrlearner
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(13)C NMR detects conformational change in the 100-kD membrane transporter ClC-ec1.
Linear Mode
