Single molecule investigations of the mechanical chemical and structural properties of biomolecules
Lead Research Organisation:
University of Leeds
Department Name: Inst of Molecular & Cellular Biology
Abstract
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Technical Summary
This proposal seeks funds to purchase an Asylum MFP-3D, a bioheater and active vibration damping platform. Non-covalent biomolecular interactions play an important role in many phenomena in biology such as protein folding, bilayer formation (phase separation), protein-ligand interactions and protein-protein interactions in biomolecular assembly. All of these processes occur at a length scale on which the imaging capability of the Atomic Force Microscope (AFM) can yield structural information. The development of force spectroscopy, the ability to calculate the strength of interaction by measuring the force at which a `bond¿ ruptures, has transformed our understanding of these processes on the single molecule level and allows detailed investigation of the factors controlling these complex phenomena. Previously, in order to perform single molecule force spectroscopy with adequate signal to noise and stability, it has been necessary to use specially designed AFMs that have no imaging facility. However, the Asylum MFP-3D is both a state of the art force spectroscope and a state of the art imaging AFM that can image over a very large area. This instrument, therefore, not only allows previously impossible experiments to be performed by will also provide an additional force probe ¿ access to our current instrument is now causing a severe bottleneck in several areas of research. Additionally, purchase of a bioheater, which is packaged with a closed fluid cell, allows temperature control and solvent exchange and also reduces solute evaporation ¿ a major drawback of the MFP-1D. The provision of an Asylum MFP-3D will allow: 1. protein mechanical unfolding data to be more rapidly and efficiently accumulated and will also allow the effects of temperature to be assessed on the mechanical properties of proteins. 2. the development of novel tethering strategies for in vitro lipid bilayers to facilitate the study of membrane proteins. 3. the investigation of cytoskeleton assembly for application in engineered biocompatible surfaces. 4. the characterisation of the spatial and functional relationships between DNA and processive enzymes. 5. the determination of the mechanical response of amyloid fibrils using a range of force measurements and the exploration of the sequence dependence of the mechanical response. 6. the characterisation of size, microstructure and dynamics of lipid rafts and their role in processes such as signal transduction and membrane trafficking.
Publications
Brockwell DJ
(2007)
Probing the mechanical stability of proteins using the atomic force microscope.
in Biochemical Society transactions
Hann E
(2007)
The effect of protein complexation on the mechanical stability of Im9.
in Biophysical journal
Grant CA
(2009)
Tuning the elastic modulus of hydrated collagen fibrils.
in Biophysical journal
Sadler DP
(2009)
Identification of a mechanical rheostat in the hydrophobic core of protein L.
in Journal of molecular biology
Farrance OE
(2013)
A force-activated trip switch triggers rapid dissociation of a colicin from its immunity protein.
in PLoS biology
Hoffmann T
(2013)
Single-molecule force spectroscopy identifies a small cold shock protein as being mechanically robust.
in The journal of physical chemistry. B
Description | Funds to purchase cutting edge AFM instruments allowed a wide range of experiments to be undertaken. The outputs and summary of their findings are detailed in the publications arising from this grant. |
Exploitation Route | Understanding the mechanical/material properties of biomolecules is necessary in the design of molecular scaffolds, in the industrial processing of biomolcules and in the design of bio-sensors. |
Sectors | Manufacturing, including Industrial Biotechology,Pharmaceuticals and Medical Biotechnology |
Description | Purchase of a state-of the-art instrument allowed several groups to publish high impact research papers that underpinned later grant applications to the BBSRC and EPSRC |
Sector | Manufacturing, including Industrial Biotechology,Pharmaceuticals and Medical Biotechnology |
Description | Using the Asylum 3D for dynamic force spectroscopy experiments |
Amount | £652,842 (GBP) |
Funding ID | BB/G020671/1 |
Organisation | Biotechnology and Biological Sciences Research Council (BBSRC) |
Sector | Public |
Country | United Kingdom |
Start | 09/2009 |
End | 08/2014 |