Crystal structure of a yeast aquaporin at 1.15 angstrom reveals a novel gating mechanism

Crystal structure of a yeast aquaporin at 1.15 angstrom reveals a novel gating mechanism

Aquaporins are transmembrane proteins that facilitate the flow of water through cellular membranes. An unusual characteristic of yeast aquaporins is that they frequently contain an extended N terminus of unknown function. Here we present the X-ray structure of the yeast aquaporin Aqy1 from Pichia pa...

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Veröffentlicht in:PLoS biology 2009-06, Vol.7 (6), p.e1000130-e1000130
Hauptverfasser: Fischer, Gerhard, Kosinska-Eriksson, Urszula, Aponte-Santamaría, Camilo, Palmgren, Madelene, Geijer, Cecilia, Hedfalk, Kristina, Hohmann, Stefan, de Groot, Bert L, Neutze, Richard, Lindkvist-Petersson, Karin
Format: Artikel
Sprache:eng
Schlagworte:
Aquaporins
Aquaporins - chemistry
Aquaporins - metabolism
Biological Transport
Chemical Sciences
chemistry
Computer Simulation
Crystallography
Crystallography, X-Ray
Freezing
Ion Channel Gating
Kemi
metabolism
Microbial Viability
Models, Molecular
Molecular
Phosphorylation
Pichia
Pichia - chemistry
Protein
Protein Structure
Protein Structure, Secondary
Secondary
Spinacia oleracea
Spinacia oleracea - chemistry
Structural Homology
Structural Homology, Protein
Tyrosine
Tyrosine - metabolism
Water
X-Ray
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Beschreibung
Zusammenfassung:Aquaporins are transmembrane proteins that facilitate the flow of water through cellular membranes. An unusual characteristic of yeast aquaporins is that they frequently contain an extended N terminus of unknown function. Here we present the X-ray structure of the yeast aquaporin Aqy1 from Pichia pastoris at 1.15 A resolution. Our crystal structure reveals that the water channel is closed by the N terminus, which arranges as a tightly wound helical bundle, with Tyr31 forming H-bond interactions to a water molecule within the pore and thereby occluding the channel entrance. Nevertheless, functional assays show that Aqy1 has appreciable water transport activity that aids survival during rapid freezing of P. pastoris. These findings establish that Aqy1 is a gated water channel. Mutational studies in combination with molecular dynamics simulations imply that gating may be regulated by a combination of phosphorylation and mechanosensitivity.
ISSN:1545-7885
1544-9173
1545-7885
DOI:10.1371/journal.pbio.1000130