Add to ORKGIn recent years, interest in controlling protein function with light has increased. Light offers a number of unique advantages over other methods, including spatial and temporal control and high selectivity. Here, we describe a general protocol for engineering a protein to be controllable with light via reaction with an exogenously introduced photoisomerizable small molecule and illustrate our protocol with two examples from the literature: the engineering of the calcium affinity of the cell-cell adhesion protein cadherin, which is an example of a protein that switches from a native to a disrupted state (Ritterson et al. J Am Chem Soc (2013) 135:12516-12519), and the engineering of the opening and closing of the chaperonin Mm-cpn, an exampl...
The aim of this project is to develop general approaches to the control of protein structures and fu...
Light-switchable proteins are being used increasingly to understand and manipulate complex molecular...
Light-switchable proteins are being used increasingly to understand and manipulate complex molecular...
Summary. Nature employs very sophisticated strategies of using light to control certain biological p...
There is a growing interest in engineering proteins whose function can be controlled with the spatia...
There is a growing interest in engineering proteins whose function can be controlled with the spatia...
Many biological processes are governed by protein activities that are spatially and temporally regul...
Many biological processes are governed by protein activities that are spatially and temporally regul...
Living materials are based on proteins that adapt and change in structure and function continuously ...
Unraveling the transformative power of optogenetics in biology requires sophisticated engineering fo...
There is a growing interest in engineering proteins whose function can be controlled with the spatia...
Nature provides an array of proteins that change conformation in response to light. The discovery of...
Nature provides an array of proteins that change conformation in response to light. The discovery of...
Nature provides an array of proteins that change conformation in response to light. The discovery of...
Nature provides an array of proteins that change conformation in response to light. The discovery of...
The aim of this project is to develop general approaches to the control of protein structures and fu...
Light-switchable proteins are being used increasingly to understand and manipulate complex molecular...
Light-switchable proteins are being used increasingly to understand and manipulate complex molecular...
Summary. Nature employs very sophisticated strategies of using light to control certain biological p...
There is a growing interest in engineering proteins whose function can be controlled with the spatia...
There is a growing interest in engineering proteins whose function can be controlled with the spatia...
Many biological processes are governed by protein activities that are spatially and temporally regul...
Many biological processes are governed by protein activities that are spatially and temporally regul...
Living materials are based on proteins that adapt and change in structure and function continuously ...
Unraveling the transformative power of optogenetics in biology requires sophisticated engineering fo...
There is a growing interest in engineering proteins whose function can be controlled with the spatia...
Nature provides an array of proteins that change conformation in response to light. The discovery of...
Nature provides an array of proteins that change conformation in response to light. The discovery of...
Nature provides an array of proteins that change conformation in response to light. The discovery of...
Nature provides an array of proteins that change conformation in response to light. The discovery of...
The aim of this project is to develop general approaches to the control of protein structures and fu...
Light-switchable proteins are being used increasingly to understand and manipulate complex molecular...
Light-switchable proteins are being used increasingly to understand and manipulate complex molecular...