Add to ORKGThe efficient preparation of protein bioconjugates represents a route to novel materials, diagnostics, and therapeutics. We previously reported a novel bioorthogonal Glaser-Hay reaction for the preparation of covalent linkages between proteins and a reaction partner; however, deleterious protein degradation was observed under extended reaction conditions. Herein, we describe the systematic optimization of the reaction to increase coupling efficiency and decrease protein degradation. Two optimized conditions were identified varying either the pH of the reaction or the bidentate ligand employed, allowing for more rapid conjugations and/or less protein oxidation. (C) 2017 Elsevier Inc. All rights reserved
The terminal alkyne is one of the most widely used chemical moieties in chemical biology. Thanks to ...
The chemical modification of proteins to produce protein bioconjugates has revolutionised the field ...
Nature has evolved 20 amino acids that comprise all the proteins that compose living things. The lim...
The efficient preparation of protein bioconjugates represents a route to novel materials, diagnostic...
The utilization of unnatural amino acids (UAAs) in bioconjugations is ideal due to their ability to ...
The importance of bioconjugates within the field of chemistry drives the need for novelmethodologies...
A large variety of biomolecules such as lipids, DNA, carbohydrates and proteins exist inside cells. ...
Proteins are capable of an astounding array of functions using only the 20 canonical amino acids; ho...
Bioconjugations are utilized in many fields including materials science, biochemistry and medicine, ...
AbstractProtein bioconjugation is an interdisciplinary field that integrates advances in chemistry a...
Bio-conjugation and protein engineering are two powerful biochemical methods to alter proteins to ha...
The ability to introduce or modify protein function has widespread application to multiple scientifi...
Site-selective chemical methods for protein bioconjugation have revolutionised the fields of cell an...
Bioconjugation is an important tool for studying complex biological systems, with site-specificity b...
The terminal alkyne is one of the most widely used chemical moieties in chemical biology. Thanks to ...
The chemical modification of proteins to produce protein bioconjugates has revolutionised the field ...
Nature has evolved 20 amino acids that comprise all the proteins that compose living things. The lim...
The efficient preparation of protein bioconjugates represents a route to novel materials, diagnostic...
The utilization of unnatural amino acids (UAAs) in bioconjugations is ideal due to their ability to ...
The importance of bioconjugates within the field of chemistry drives the need for novelmethodologies...
A large variety of biomolecules such as lipids, DNA, carbohydrates and proteins exist inside cells. ...
Proteins are capable of an astounding array of functions using only the 20 canonical amino acids; ho...
Bioconjugations are utilized in many fields including materials science, biochemistry and medicine, ...
AbstractProtein bioconjugation is an interdisciplinary field that integrates advances in chemistry a...
Bio-conjugation and protein engineering are two powerful biochemical methods to alter proteins to ha...
The ability to introduce or modify protein function has widespread application to multiple scientifi...
Site-selective chemical methods for protein bioconjugation have revolutionised the fields of cell an...
Bioconjugation is an important tool for studying complex biological systems, with site-specificity b...
The terminal alkyne is one of the most widely used chemical moieties in chemical biology. Thanks to ...
The chemical modification of proteins to produce protein bioconjugates has revolutionised the field ...
Nature has evolved 20 amino acids that comprise all the proteins that compose living things. The lim...