We have improved the incorporation of L-and D-forms of unnatural amino acid (UAA) N εthiaprolyl-L-lysine (ThzK) into ubiquitin (UB) and green fluorescent protein (GFP) by 2-6 folds with the use of the methylester forms of the UAAs in E coli cell culture. We also improved the yields of UAA-incorporated UB and GFP with the methylester forms of N ε -Boc-L-Lysine (BocK) and N ε -propargyl-L-Lysine (PrK) by 2-5 folds compared to their free acid forms. Our work demonstrated that using methylester-capped UAAs for protein expression is a useful strategy to enhance the yields of UAA-incorporated proteins.
The use of light to control protein function is a critical tool in chemical biology. Here we describe the addition of a photocaged histidine to the genetic code. This unnatural amino acid becomes histidine upon exposure to light and allows for the optical control of enzymes that utilize active-site histidine residues. We demonstrate light-induced activation of a blue fluorescent protein and a chloramphenicol transferase. Further, we genetically encoded photocaged histidine in mammalian cells. We then used this approach in live cells for optical control of firefly luciferase and, Renilla luciferase. This tool should have utility in manipulating and controlling a wide range of biological processes.
Di‐ubiquitin (diUB) conjugates of defined linkages are useful tools for probing the functions of UB ligases, UB‐binding proteins and deubiquitinating enzymes (DUBs) in coding, decoding and editing the signals carried by the UB chains. Here we developed an efficient method for linkage‐specific synthesis of diUB probes based on the incorporation of the unnatural amino acid (UAA) Nϵ‐L‐thiaprolyl‐L‐Lys (L‐ThzK) into UB for ligation with another UB at a defined Lys position. The diUB formed by the UAA‐mediated ligation reaction has a G76C mutation on the side of donor UB for conjugation with E2 and E3 enzymes or undergoing dethiolation to generate a covalent trap for DUBs. The development of UAA mutagenesis for diUB synthesis provides an easy route for preparing linkage‐specific UB‐based probes to decipher the biological signals mediated by protein ubiquitination.
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