6533b7d7fe1ef96bd126851f
RESEARCH PRODUCT
The GlpF residue Trp219 is part of an amino-acid cluster crucial for aquaglyceroporin oligomerization and function
Margareta TrefzDirk SchneiderRebecca KellerMiriam Vogtsubject
GlycerolModels Molecular0301 basic medicineProtein ConformationTetrameric proteinBiophysicsAquaporinAquaporinsBiochemistry03 medical and health sciencesResidue (chemistry)TetramerEscherichia coliAmino Acidschemistry.chemical_classification030102 biochemistry & molecular biologyProtein StabilityChemistryEscherichia coli ProteinsTryptophanTryptophanCell BiologyAmino acid030104 developmental biologyAquaglyceroporinsBiochemistryMutationBiophysicsProtein foldingProtein MultimerizationAquaglyceroporinsdescription
The vestibule loop regions of aquaglyceroporins are involved in accumulation of glycerol inside the channel pore. Even though most loop regions do not show high sequence similarity among aquaglyceroporins, loop E is highly conserved in aquaglyceroporins, but not in members of the homologous aquaporins. Specifically, a tryptophan residue is extremely conserved within this loop. We have investigated the role of this residue (Trp219) that deeply protrudes into the protein and potentially interacts with adjacent loops, using the E. coli aqualgyeroporin GlpF as a model. Replacement of Trp219 affects the activity of GlpF and impairs the stability of the tetrameric protein. Furthermore, we have identified an amino acid cluster involving Trp219 that stabilizes the GlpF tetramer. Based on our results we propose that Trp219 is key for formation of a defined vestibule structure, which is crucial for glycerol accumulation as well as for the stability of the active GlpF tetramer.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2018-04-01 | Biochimica et Biophysica Acta (BBA) - Biomembranes |