Optimisation of over-expression in E. coli and biophysical characterisation of human membrane protein synaptogyrin 1
Progress in functional and structural studies of integral membrane proteins (IMPs) is lacking behind their soluble counterparts due to the great challenge in producing stable and homogeneous IMPs. Low natural abundance, toxicity when over-expressed and potential lipid requirements of IMPs are only a...
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sg-ntu-dr.10356-957702023-02-28T17:04:12Z Optimisation of over-expression in E. coli and biophysical characterisation of human membrane protein synaptogyrin 1 Löw, Christian Jegerschöld, Caroline Kovermann, Michael Moberg, Per Nordlund, Pär School of Biological Sciences DRNTU::Science::Biological sciences::Microbiology::Bacteria Progress in functional and structural studies of integral membrane proteins (IMPs) is lacking behind their soluble counterparts due to the great challenge in producing stable and homogeneous IMPs. Low natural abundance, toxicity when over-expressed and potential lipid requirements of IMPs are only a few reasons for the limited progress. Here, we describe an optimised workflow for the recombinant over-expression of the human tetraspan vesicle protein (TVP) synaptogyrin in Escherichia coli and its biophysical characterisation. TVPs are ubiquitous and abundant components of vesicles. They are believed to be involved in various aspects of the synaptic vesicle cycle, including vesicle biogenesis, exocytosis and endocytotic recycling. Even though TVPs are found in most cell types, high-resolution structural information for this class of membrane proteins is still missing. The optimisation of the N-terminal sequence of the gene together with the usage of the recently developed Lemo21(DE3) strain which allows the balancing of the translation with the membrane insertion rate led to a 50-fold increased expression rate compared to the classical BL21(DE3) strain. The protein was soluble and stable in a variety of mild detergents and multiple biophysical methods confirmed the folded state of the protein. Crosslinking experiments suggest an oligomeric architecture of at least four subunits. The protein stability is significantly improved in the presence of cholesteryl hemisuccinate as judged by differential light scattering. The approach described here can easily be adapted to other eukaryotic IMPs. Published version 2013-03-07T06:36:39Z 2019-12-06T19:21:10Z 2013-03-07T06:36:39Z 2019-12-06T19:21:10Z 2012 2012 Journal Article Löw, C., Jegerschöld, C., Kovermann, M., Moberg, P., & Nordlund, P. (2012). Optimisation of Over-Expression in E. coli and Biophysical Characterisation of Human Membrane Protein Synaptogyrin 1. PLoS ONE, 7(6). 1932-6203 https://hdl.handle.net/10356/95770 http://hdl.handle.net/10220/9349 10.1371/journal.pone.0038244 22675529 en PLoS ONE © 2012 The Authors. application/pdf |
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DRNTU::Science::Biological sciences::Microbiology::Bacteria Löw, Christian Jegerschöld, Caroline Kovermann, Michael Moberg, Per Nordlund, Pär Optimisation of over-expression in E. coli and biophysical characterisation of human membrane protein synaptogyrin 1 |
| description |
Progress in functional and structural studies of integral membrane proteins (IMPs) is lacking behind their soluble counterparts due to the great challenge in producing stable and homogeneous IMPs. Low natural abundance, toxicity when over-expressed and potential lipid requirements of IMPs are only a few reasons for the limited progress. Here, we describe an optimised workflow for the recombinant over-expression of the human tetraspan vesicle protein (TVP) synaptogyrin in Escherichia coli and its biophysical characterisation. TVPs are ubiquitous and abundant components of vesicles. They are believed to be involved in various aspects of the synaptic vesicle cycle, including vesicle biogenesis, exocytosis and endocytotic recycling. Even though TVPs are found in most cell types, high-resolution structural information for this class of membrane proteins is still missing. The optimisation of the N-terminal sequence of the gene together with the usage of the recently developed Lemo21(DE3) strain which allows the balancing of the translation with the membrane insertion rate led to a 50-fold increased expression rate compared to the classical BL21(DE3) strain. The protein was soluble and stable in a variety of mild detergents and multiple biophysical methods confirmed the folded state of the protein. Crosslinking experiments suggest an oligomeric architecture of at least four subunits. The protein stability is significantly improved in the presence of cholesteryl hemisuccinate as judged by differential light scattering. The approach described here can easily be adapted to other eukaryotic IMPs. |
| author2 |
School of Biological Sciences |
| author_facet |
School of Biological Sciences Löw, Christian Jegerschöld, Caroline Kovermann, Michael Moberg, Per Nordlund, Pär |
| format |
Article |
| author |
Löw, Christian Jegerschöld, Caroline Kovermann, Michael Moberg, Per Nordlund, Pär |
| author_sort |
Löw, Christian |
| title |
Optimisation of over-expression in E. coli and biophysical characterisation of human membrane protein synaptogyrin 1 |
| title_short |
Optimisation of over-expression in E. coli and biophysical characterisation of human membrane protein synaptogyrin 1 |
| title_full |
Optimisation of over-expression in E. coli and biophysical characterisation of human membrane protein synaptogyrin 1 |
| title_fullStr |
Optimisation of over-expression in E. coli and biophysical characterisation of human membrane protein synaptogyrin 1 |
| title_full_unstemmed |
Optimisation of over-expression in E. coli and biophysical characterisation of human membrane protein synaptogyrin 1 |
| title_sort |
optimisation of over-expression in e. coli and biophysical characterisation of human membrane protein synaptogyrin 1 |
| publishDate |
2013 |
| url |
https://hdl.handle.net/10356/95770 http://hdl.handle.net/10220/9349 |
| _version_ |
1759853587306905600 |