doi: 10.1103/PhysRevLett.94.038103.
Epub 2005 Jan 26.
Artificial allosteric control of maltose binding protein
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- PMID: 15698328
- DOI: 10.1103/PhysRevLett.94.038103
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Artificial allosteric control of maltose binding protein
Phys Rev Lett.
.
Abstract
We demonstrate the allosteric control of a protein based on mechanical tension. When substrate binding is accompanied by a significant change of conformation of the protein, a mechanical tension favoring one or the other conformation will alter the binding affinity for the substrate. We have constructed a chimera where the two lobes of the maltose-binding protein are covalently coupled to the ends of a DNA oligomer. The mechanical tension on the protein is controlled externally by exploiting the difference in stiffness between single stranded and double stranded DNA. We report that the binding affinity of the protein for its substrates is significantly altered by the tension.
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