Topics
Escherichia coliSpecies
phenylalanineChemical substance
mutantDisease
receptorProtein
covalent bondAlbum
acidChemical compound
orthogonalAgent
lysineChemical substance
ErbB2Agent
pHAircraft
aminoacyl-tRNA synthetaseBiomolecule
ABSTRACT: Selective covalent bond formation at a protein− protein interface potentially can be achieved by genetically introducing into a protein an appropriately “tuned ” electro-philic unnatural amino acid that reacts with a native nucleophilic residue in its cognate receptor upon complex formation. We have evolved orthogonal aminoacyl-tRNA synthetase/tRNACUA pairs that genetically encode three aza-Michael acceptor amino acids, Nε-acryloyl-(S)-lysine (AcrK, 1), p-acrylamido-(S)-phenylalanine (AcrF, 2), and p-vinyl-sulfonamido-(S)-phenylalanine (VSF, 3), in response to the amber stop codon in Escherichia coli. Using an αErbB2 Fab-ErbB2 antibody-receptor pair as an example, we demonstrate covalent bond formation between an αErbB2-VSF mutant...
Expanding the genetic code by unnatural amino acid (UAA) incorporation allows for control of protein...
Targeted covalent inhibitors have had a major impact on human health and disease. In the past decade...
The ability to reversibly control protein structure and function with light would offer high spatiot...
Selective covalent bond formation at a protein–protein interface potentially can be achieved by gene...
ABSTRACT: Covalent bonds can be generated within and between proteins by an unnatural amino acid (Ua...
Covalent bonds can be generated within and between proteins by an unnatural amino acid (Uaa) reactin...
The selective generation of covalent bonds between and within proteins would provide new avenues for...
The genetic code can be expanded to include unnatural amino acids (Uaas) by engineering orthogonal c...
The diversity of protein functions is impacted in significant part by the chemical properties of the...
The pyrrolysyl-tRNA/pyrrolysyl-tRNA synthetase (PylT/RS) pair from Methanosarcina mazei (Mma) is wid...
To expand protein's covalent bonding ability, latent bioreactive unnatural amino acids have been des...
ABSTRACT: We recently developed a method for genetically incorporating unnatural amino acids site-sp...
The study of protein-protein interactions in essential to our understanding of cell biology and our ...
SummaryWe report a strategy for the generation of heterodimeric protein conjugates using an unnatura...
Natural proteins often rely on the disulfide bond to covalently link side chains. Here we geneticall...
Expanding the genetic code by unnatural amino acid (UAA) incorporation allows for control of protein...
Targeted covalent inhibitors have had a major impact on human health and disease. In the past decade...
The ability to reversibly control protein structure and function with light would offer high spatiot...
Selective covalent bond formation at a protein–protein interface potentially can be achieved by gene...
ABSTRACT: Covalent bonds can be generated within and between proteins by an unnatural amino acid (Ua...
Covalent bonds can be generated within and between proteins by an unnatural amino acid (Uaa) reactin...
The selective generation of covalent bonds between and within proteins would provide new avenues for...
The genetic code can be expanded to include unnatural amino acids (Uaas) by engineering orthogonal c...
The diversity of protein functions is impacted in significant part by the chemical properties of the...
The pyrrolysyl-tRNA/pyrrolysyl-tRNA synthetase (PylT/RS) pair from Methanosarcina mazei (Mma) is wid...
To expand protein's covalent bonding ability, latent bioreactive unnatural amino acids have been des...
ABSTRACT: We recently developed a method for genetically incorporating unnatural amino acids site-sp...
The study of protein-protein interactions in essential to our understanding of cell biology and our ...
SummaryWe report a strategy for the generation of heterodimeric protein conjugates using an unnatura...
Natural proteins often rely on the disulfide bond to covalently link side chains. Here we geneticall...
Expanding the genetic code by unnatural amino acid (UAA) incorporation allows for control of protein...
Targeted covalent inhibitors have had a major impact on human health and disease. In the past decade...
The ability to reversibly control protein structure and function with light would offer high spatiot...
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