EC Number   |
BRENDA No. |
Title |
Journal |
Volume |
Pages |
Year |
Organism |
PubMed ID |
|---|
   5.6.1.6 | 751395 |
Altering intracellular pH reveals the kinetic basis of intraburst gating in the CFTR Cl- channel |
J. Physiol. |
595 |
1059-1076 |
2017 |
Homo sapiens |
27779763 |
| 5.6.1.6 | 751065 |
Channel gating regulation by the cystic fibrosis transmembrane conductance regulator (CFTR) first cytosolic loop |
J. Biol. Chem. |
291 |
1854-1865 |
2016 |
Homo sapiens |
26627831 |
| 5.6.1.6 | 750279 |
Combining theoretical and experimental data to decipher CFTR 3D structures and functions |
Cell. Mol. Life Sci. |
75 |
3829-3855 |
2018 |
Homo sapiens |
29779042 |
| 5.6.1.6 | 750255 |
Conformational changes of CFTR upon phosphorylation and ATP binding |
Cell |
170 |
483-491.e8 |
2017 |
Danio rerio |
28735752 |
| 5.6.1.6 | 749935 |
Cryo-EM Visualization of an active high open probability CFTR anion channel |
Biochemistry |
57 |
6234-6246 |
2018 |
Gallus gallus |
30281975 |
| 5.6.1.6 | 750284 |
Cystic fibrosis transmembrane conductance regulator (CFTR) Making an ion channel out of an active transporter structure |
Channels |
12 |
284-290 |
2018 |
Homo sapiens |
30152709 |
| 5.6.1.6 | 750275 |
Cytoplasmic pathway followed by chloride ions to enter the CFTR channel pore |
Cell. Mol. Life Sci. |
73 |
1917-1925 |
2016 |
Homo sapiens |
26659082 |
| 5.6.1.6 | 750519 |
External Zn2+ binding to cysteine-substituted cystic fibrosis transmembrane conductance regulator constructs regulates channel gating and curcumin potentiation |
FEBS J. |
283 |
2458-2475 |
2016 |
Homo sapiens |
27175795 |
| 5.6.1.6 | 751985 |
Functional characterization reveals that zebrafish CFTR prefers to occupy closed channel conformations |
PLoS ONE |
13 |
e0209862 |
2018 |
Danio rerio |
30596737 |
| 5.6.1.6 | 751062 |
How phosphorylation and ATPase activity regulate anion flux though the cystic fibrosis transmembrane conductance regulator (CFTR) |
J. Biol. Chem. |
291 |
14483-14498 |
2016 |
Homo sapiens |
27226582 |
