Structural Model of the ETR1 Ethylene Receptor Transmembrane Sensor Domain

Structural Model of the ETR1 Ethylene Receptor Transmembrane Sensor Domain

The structure, mechanism of action and copper stoichiometry of the transmembrane sensor domain of the plant ethylene receptor ETR1 and homologs have remained elusive, hampering the understanding on how the perception of the plant hormone ethylene is transformed into a downstream signal. We generated...

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Veröffentlicht in:Scientific reports 2019-06, Vol.9 (1), p.8869-14, Article 8869
Hauptverfasser: Schott-Verdugo, Stephan, Müller, Lena, Classen, Elisa, Gohlke, Holger, Groth, Georg
Format: Artikel
Sprache:eng
Schlagworte:
119/118
631/114/2397
631/449/2675
631/45/56
82/80
82/83
96/95
Arabidopsis - chemistry
Arabidopsis Proteins - chemistry
Copper
Copper - metabolism
Ethylene
Ethylenes - metabolism
Humanities and Social Sciences
Models, Molecular
multidisciplinary
Perception
Plant hormones
Protein Binding
Protein Domains
Receptors, Cell Surface - chemistry
Scanning mutagenesis
Science
Science (multidisciplinary)
Sensors
Stoichiometry
Tryptophan
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Zusammenfassung:The structure, mechanism of action and copper stoichiometry of the transmembrane sensor domain of the plant ethylene receptor ETR1 and homologs have remained elusive, hampering the understanding on how the perception of the plant hormone ethylene is transformed into a downstream signal. We generated the first structural model of the transmembrane sensor domain of ETR1 by integrating ab initio structure prediction and coevolutionary information. To refine and independently validate the model, we determined protein-related copper stoichiometries on purified receptor preparations and explored the helix arrangement by tryptophan scanning mutagenesis. All-atom molecular dynamics simulations of the dimeric model reveal how ethylene can bind proximal to the copper ions in the receptor, illustrating the initial stages of the ethylene perception process.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-019-45189-w