ABSTRACT
The E. coli aminoacyl transferase (AaT) can be used to transfer a variety of unnatural amino acids, including those with azide or alkyne groups, to the α-amine of a protein with an N-terminal Lys or Arg. Subsequent functionalization through either copper-catalyzed or strain-promoted click reactions can be used to label the protein with fluorophores or biotin. This can be used to directly detect AaT substrates or in a two-step protocol to detect substrates of the mammalian ATE1 transferase.
Subject(s)
Aminoacyltransferases , Transferases , Animals , Click Chemistry/methods , Escherichia coli/metabolism , Aminoacyltransferases/metabolism , Amino Acids , Alkynes/chemistry , Azides/chemistry , Mammals/metabolismABSTRACT
The E. coli aminoacyl transferase (AaT) can be used to transfer a variety of unnatural amino acids, including those with azide or alkyne groups, to the α-amine of a protein with an N-terminal Lys or Arg. Subsequent functionalization through either copper-catalyzed or strain-promoted click reactions can be used to label the protein with fluorophores or biotin. This method can be used to directly detect AaT substrates or in a two-step protocol to detect substrates of the mammalian ATE1 transferase.
