Shixian Lin scite author profile

Cysteine can be specifically functionalized by a myriad of acid-base conjugation strategies for applications ranging from probing protein function to antibody-drug conjugates and proteomics. In contrast, selective ligation to the other sulfur-containing amino acid, methionine, has been precluded by its intrinsically weaker nucleophilicity. Here, we report a strategy for chemoselective methionine bioconjugation through redox reactivity, using oxaziridine-based reagents to achieve highly selective, rapid, and robust methionine labeling under a range of biocompatible reaction conditions. We highlight the broad utility of this conjugation method to enable precise addition of payloads to proteins, synthesis of antibody-drug conjugates, and identification of hyperreactive methionine residues in whole proteomes.

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Palladium-triggered deprotection chemistry for protein activation in living cells

Zhao

et al. 2014

Nature Chem

390

330

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Employing small molecules or chemical reagents to modulate the function of an intracellular protein, particularly in a gain-of-function fashion, remains a challenge. In contrast to inhibitor-based loss-of-function approaches, methods based on a gain of function enable specific signalling pathways to be activated inside a cell. Here we report a chemical rescue strategy that uses a palladium-mediated deprotection reaction to activate a protein within living cells. We identify biocompatible and efficient palladium catalysts that cleave the propargyl carbamate group of a protected lysine analogue to generate a free lysine. The lysine analogue can be genetically and site-specifically incorporated into a protein, which enables control over the reaction site. This deprotection strategy is shown to work with a range of different cell lines and proteins. We further applied this biocompatible protection group/catalyst pair for caging and subsequent release of a crucial lysine residue in a bacterial Type III effector protein within host cells, which reveals details of its virulence mechanism.

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A genetically incorporated crosslinker reveals chaperone cooperation in acid resistance

et al. 2011

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Acid chaperones are essential factors in preserving the protein homeostasis for enteric pathogens to survive in the extremely acidic mammalian stomach (pH 1-3). The client proteins of these chaperones remain largely unknown, primarily because of the exceeding difficulty of determining protein-protein interactions under low-pH conditions. We developed a genetically encoded, highly efficient protein photocrosslinking probe, which enabled us to profile the in vivo substrates of a major acid-protection chaperone, HdeA, in Escherichia coli periplasm. Among the identified HdeA client proteins, the periplasmic chaperones DegP and SurA were initially found to be protected by HdeA at a low pH, but they subsequently facilitated the HdeA-mediated acid recovery of other client proteins. This unique, ATP-independent chaperone cooperation in the ATP-deprived E. coli periplasm may support the acid resistance of enteric bacteria. The crosslinker would be valuable in unveiling the physiological interaction partners of any given protein and thus their functions under normal and stress conditions.

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Shixian Lin

Redox-based reagents for chemoselective methionine bioconjugation

Palladium-triggered deprotection chemistry for protein activation in living cells

A genetically incorporated crosslinker reveals chaperone cooperation in acid resistance

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