Add to ORKGTo mimic a hypothetical pathway for protein evolution, we previously tailored a monomeric protein (cyt cb562 ) for metal-mediated self-assembly, followed by re-design of the resulting oligomers for enhanced stability and metal-based functions. We show that a single hydrophobic mutation on the cyt cb562 surface drastically alters the outcome of metal-directed oligomerization to yield a new trimeric architecture, (TriCyt1)3. This nascent trimer was redesigned into second and third-generation variants (TriCyt2)3 and (TriCyt3)3 with increased structural stability and preorganization for metal coordination. The three TriCyt variants combined furnish a unique platform to 1) provide tunable coupling between protein quaternary structure and metal c...
Selective metal coordination is central to the functions of metalloproteins:1,2 each metalloprotein ...
Proteins are nature’s chosen building blocks to create sophisticated and functional 0-, 1-, 2- and 3...
Coiled-coil (CC) dimers are versatile, customizable building modules for the design of diverse prote...
The de novo design of protein-protein interactions (PPIs) has proven to be an immense challenge due ...
Despite significant advances in the field of computational protein modeling and design, the predicti...
Metal coordination is a key structural and functional component of a large fraction of proteins. Giv...
Metalloproteins are some of the best catalysts in Nature. The synergistic combination of transition ...
Proteins represent the most sophisticated building blocks available to an organism and to the labora...
Proteins represent the most sophisticated building blocks available to an organism or the laboratory...
Nature has long been a source of fascination, inspiration and humility for chemists. Despite our bes...
Herein we describe a designed protein building block whose self-assembly behaviour is dually gated b...
Proteins are one of the main building blocks of life. Among their numerous functions are roles as bi...
Many proteins exist naturally as symmetrical homooligomers or homopolymers1. The emergent structural...
Selective metal binding is a key requirement not only for the functions of natural metalloproteins b...
Despite nature’s prevalent use of metals as prosthetics to adapt or enhance the behaviour of protein...
Selective metal coordination is central to the functions of metalloproteins:1,2 each metalloprotein ...
Proteins are nature’s chosen building blocks to create sophisticated and functional 0-, 1-, 2- and 3...
Coiled-coil (CC) dimers are versatile, customizable building modules for the design of diverse prote...
The de novo design of protein-protein interactions (PPIs) has proven to be an immense challenge due ...
Despite significant advances in the field of computational protein modeling and design, the predicti...
Metal coordination is a key structural and functional component of a large fraction of proteins. Giv...
Metalloproteins are some of the best catalysts in Nature. The synergistic combination of transition ...
Proteins represent the most sophisticated building blocks available to an organism and to the labora...
Proteins represent the most sophisticated building blocks available to an organism or the laboratory...
Nature has long been a source of fascination, inspiration and humility for chemists. Despite our bes...
Herein we describe a designed protein building block whose self-assembly behaviour is dually gated b...
Proteins are one of the main building blocks of life. Among their numerous functions are roles as bi...
Many proteins exist naturally as symmetrical homooligomers or homopolymers1. The emergent structural...
Selective metal binding is a key requirement not only for the functions of natural metalloproteins b...
Despite nature’s prevalent use of metals as prosthetics to adapt or enhance the behaviour of protein...
Selective metal coordination is central to the functions of metalloproteins:1,2 each metalloprotein ...
Proteins are nature’s chosen building blocks to create sophisticated and functional 0-, 1-, 2- and 3...
Coiled-coil (CC) dimers are versatile, customizable building modules for the design of diverse prote...