2020
DOI: 10.1039/d0ra09110c
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A bifunctional amino acid to study protein–protein interactions

Abstract: dzANA is a novel bifunctional (photo-reactive and bioorthogonal) amino acid to study protein–protein interactions.

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Cited by 11 publications
(8 citation statements)
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“…Crosslinks obtained after trypsin digestion were analyzed by the multidimensional MS to identify the specific amino acids involved in linking the glycine receptor to the cholesterol, which could subsequently map the cholesterol–protein interface altering as a function of cholesterol composition 47 . A bifunctional UAA bearing a diazirine, for photo‐crosslinking, and a terminal alkyne group, for bioorthogonal tagging, has been reported 42 . A ligand harboring the bifunctional UAA captured a target protein by photo‐crosslinking could then be tagged with an affinity motif such as biotin by alkyne‐azide click chemistry.…”
Section: Mapping Biological Interfaces By Clmsmentioning
confidence: 99%
See 1 more Smart Citation
“…Crosslinks obtained after trypsin digestion were analyzed by the multidimensional MS to identify the specific amino acids involved in linking the glycine receptor to the cholesterol, which could subsequently map the cholesterol–protein interface altering as a function of cholesterol composition 47 . A bifunctional UAA bearing a diazirine, for photo‐crosslinking, and a terminal alkyne group, for bioorthogonal tagging, has been reported 42 . A ligand harboring the bifunctional UAA captured a target protein by photo‐crosslinking could then be tagged with an affinity motif such as biotin by alkyne‐azide click chemistry.…”
Section: Mapping Biological Interfaces By Clmsmentioning
confidence: 99%
“…47 A bifunctional UAA bearing a diazirine, for photocrosslinking, and a terminal alkyne group, for bioorthogonal tagging, has been reported. 42 A ligand harboring the bifunctional UAA captured a target protein by photo-crosslinking could then be tagged with an affinity motif such as biotin by alkyne-azide click chemistry. This strategy might enable the enrichment of ligand-target peptide conjugates after digestion and purification for high-resolution MS, allowing efficient mapping of biological interfaces on both sides of a ligand and a target.…”
Section: Interfaces Revealed By Uaa Incorporation and Crosslinking Co...mentioning
confidence: 99%
“…Similarly, numerous photo affinity probes have also been recently reported and are known to be involved in protein-protein interactions. A bifunctional amino acid containing a terminal alkyne group and a diazirine as a photo-crosslinker was utilized for bio-orthogonal tagging (A bifunctional amino acid to study protein–protein interaction [ 114 ]. The most challenging part of biomolecular crosslinking is to retain their activity even after crosslinking.…”
Section: Chemical Crosslinking Of Proteinsmentioning
confidence: 99%
“…[154] A compact bifunctional alkyl diazirine UAA with an alkyne was developed and incorporated into peptides. [155] A UAA containing an aryl tetrazole has also been developed, reportedly having higher crosslinking levels than benzophenone alternatives. [127] The Chen lab has also developed several bifunctional UAA's for studying protein-protein interactions, including a cleavable Se amino acid with an alkyl diazirine and an alkyne.…”
Section: Pal In Unnatural Amino Acids For Protein-protein Interactionsmentioning
confidence: 99%