Profiling of Membrane Protein Variants in a Baculovirus System by Coupling Cell-surface Detection with Small-scale Parallel Expression

Overview

Journal Protein Expr Purif

Specialty Molecular Biology

Date 2007 Aug 29

PMID 17723307

Citations 18

Authors

Michael A Hanson

Alexei Brooun

Kent A Baker

Veli-Pekka Jaakola

Chris Roth

Ellen Y T Chien

Alexander Alexandrov

Jeffrey Velasquez

Leila Davis

Mark Griffith

Kin Moy

Barbie K Ganser-Pornillos

Yuanzi Hua

Peter Kuhn

Sam Ellis

Mark Yeager

Raymond C Stevens

Affiliations

Soon will be listed here.

Abstract

Production of structure-grade mammalian membrane proteins in substantial quantities has been hindered by a lack of methods for effectively profiling multiple constructs expression in higher eukaryotic systems such as insect or mammalian cells. To address this problem, a specialized small-scale eukaryotic expression platform by Thomson Instrument Company (Vertiga-IM) was developed and used in tandem with a Guava EasyCyte microcapillary 96-well cytometer to monitor cell density and health and evaluate membrane protein expression. Two proof of concept experiments were conducted using the human beta(2)-adrenergic receptor (beta(2)AR) and the gap junction protein connexin26 (Cx26) in a baculovirus expression system. First, cell surface expression was used to assess the expression levels of 14 beta(2)AR truncation variants expressed using the Vertiga-IM shaker. Three of these variants were then compared to wild-type beta(2)AR using three metrics: cell surface expression, saturation ligand binding and protein immunoblot analysis of dodecylmaltoside extracted material. Second, a series of systematic Cx26 truncation variants were evaluated for expression by protein immunoblot analysis. The cumulative results for these two systems show that the Vertiga-IM instrument can be used effectively in the parallel insect cell microexpression of membrane protein variants, and that the expression of cell surface molecules as monitored with the Guava EasyCyte instrument can be used to rapidly assess the production of properly folded proteins in the baculovirus expression system. This approach expedites the in vitro evaluation of a large number of mammalian membrane protein variants.

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