Sylvia May scite author profile

Although the identification of the multigene family encoding mammalian olfactory receptors were identified more than 20 years ago, we are far from understanding olfactory perception because of the difficulties in functional expression of these receptors in heterologous cell systems. Cell-free (CF) or in vitro expression systems offer an elegant alternative route to cell based protein expression, as the functional expression of membrane proteins can be directly achieved from the genetic template without the need of cell cultivation and protein isolation. Here we investigated in detail the cell-free expression and membrane insertion of the olfactory receptor OR5 in dependence of different experimental conditions like probing different origins of the cell-free expression system (from bacteria, via plants and insects toward mammalian system) and lipid composition of the respective extracts. We provided substantial biochemical indications by radioactive labeling based on [(35)S]-methionine, followed by proteolytic digestion, and we found that the insertion of the olfactory receptor OR5 into liposomes resulted in an unidirectional orientation with the binding side exposed into the aqueous space, resembling the native orientation in the cilia of the olfactory neurons. We report the different results in synthesis capacity for the different in vitro systems employed as we like to demonstrate the first in vitro kit toward and ex situ and ex vivo odorant receptor array.

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Selective Deposition and Self-Assembly of Triblock Copolymers into Matrix Arrays for Membrane Protein Production

Andreasson-Ochsner

May

et al. 2012

Langmuir

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To improve the stability of cell membrane mimics, there has been growing interest in the use of block copolymers. Here, we present an easy approach to create an array of planar polymeric matrices capable of hosting membrane proteins. The array of polymeric matrices was formed by the selective deposition of triblock copolymers onto an array of hydrophilic islands situated within a hydrophobic background. The thickness of these matrices corresponds to the length of a single polymer chain. These polymeric matrices were used to host cell-free expressed membrane proteins, and offers a prototype from which a membrane protein array can be created for diagnostics or drug discovery purposes.

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The weathering characteristics of ECOLYTE polystyrene: Part 1—A photo-degradable copolymer masterbatch and blends with polystyrene

May

Fuentes

Sato

1991

Polymer Degradation and Stability

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Sylvia May

In Vitro Expressed GPCR Inserted in Polymersome Membranes for Ligand‐Binding Studies

Cell-free expression of a mammalian olfactory receptor and unidirectional insertion into small unilamellar vesicles (SUVs)

Selective Deposition and Self-Assembly of Triblock Copolymers into Matrix Arrays for Membrane Protein Production

The weathering characteristics of ECOLYTE polystyrene: Part 1—A photo-degradable copolymer masterbatch and blends with polystyrene

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