Karine Caron scite author profile

Dimaleimide fluorogens are being developed for application to fluorescent protein labeling. In this method, fluorophores bearing two maleimide quenching groups do not fluoresce until both maleimide groups have undergone thiol addition reactions with the Cys residues of the target protein sequence [J. Am. Chem. Soc. 2005, 127, 559-566]. In this work, a new convergent synthetic route was developed that would allow any fluorophore to be attached via a linker to a dimaleimide moiety in a modular fashion. Series of dimaleimide and dansyl derivatives were thus prepared conveniently and used to elucidate the mechanism of maleimide quenching. Intersystem crossing was ruled out as a potential quenching pathway, based on the absence of a detectable triplet intermediate by laser flash photolysis. Stern-Volmer rate constants were measured with exogenous dimaleimide quenchers and found to be close to the diffusion-controlled limits, consistent with electron transfer being thermodynamically favorable. The thermodynamic feasibility of the photoinduced electron transfer (PET) quenching mechanism was verified by cyclic voltammetry. The redox potentials measured for dansyl and maleimide confirm that electron transfer from the dansyl excited state to a pendant maleimide group is exergonic and is responsible for fluorescence quenching of the fluorogens studied herein. Taking this PET quenching mechanism into account, future fluorogenic protein labeling agents will be designed with spacers of variable length and rigidity to probe the structure-property PET efficiency relationship.

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De novo helical peptides as target sequences for a specific, fluorogenic protein labelling strategy

Guy

Castonguay

Pineda

et al. 2010

Mol. BioSyst.

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New methods are needed to selectively label proteins in a manner that minimally perturbs their structures and functions. We have developed a 'small molecule'-based labelling technique that relies on the use of dimaleimide fluorogens that react with a target peptide sequence that presents appropriately spaced, solvent-exposed Cys residues. The thiol addition reaction between target sequence and dimaleimide fluorogen restores the latent fluorescence of the latter and results in the covalent fluorescent labelling of the protein of interest (J. Guy, K. Caron, S. Dufresne, S. W. Michnick, W. G. Skene and J. W. Keillor, J. Am. Chem. Soc., 2007, 129, 11969-11977). We demonstrated the proof-of-principle of this method previously, using a dicysteine mutant of the helical protein Fos (S. Girouard, M.-H. Houle, A. Grandbois, J. W. Keillor and S. W. Michnick, J. Am. Chem. Soc., 2005, 127, 559-566). Herein, we present the design of a novel peptide sequence presenting two Cys residues separated by two turns of an alpha-helix. The secondary structure of this sequence was confirmed by CD spectroscopy, before and after the fluorescent labelling reaction. A new series of di(3-methylmaleimide) fluorogens was prepared and kinetically evaluated, tuning their reactivity toward the target sequence. Attempts were made to increase the reactivity of the parent target sequence by rational design; however, the introduction of basic His residues in the vicinity of one or more Cys residues did not have the desired effect. Finally, epidermal growth factor receptors bearing the de novo target sequence were specifically labelled with a di(3-methylmaleimide) fluorescein fluorogen, validating our method for specific cell-surface labelling of proteins. A wide variety of fluorogen and peptide designs can be envisioned with potential applications to multiplexed labelling for the study of temporal and spatial dynamics of protein expression.

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ATP Recycling with Cell Lysate for Enzyme-Catalyzed Chemical Synthesis, Protein Expression and PCR

et al. 2016

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E. coli lysate efficiently catalyzes acetyl phosphate-driven ATP regeneration in several important biotechnological applications. The utility of this ATP recycling strategy in enzyme-catalyzed chemical synthesis is illustrated through the conversion of uridine to UMP by the lysate from recombinant overexpression of uridine kinase with the E. coli. The UMP is further transformed into UTP through sequential phosphorylations by kinases naturally present in the lysate, in high yield. Cytidine and 5-fluorouridine also give the corresponding NMPs and NTPs with this system. Cell-free protein expression with a processed extract of lysate also proceeds readily when, instead of adding the required NTPs, all four are produced in situ from the NMPs, using acetyl phosphate and relying on endogenous kinase activity. Similarly, dNMPs can be used to produce the dNTPs necessary for DNA synthesis in PCR. These cheap alternative protocols showcase the potential of acetyl phosphate and ATP recycling with readily available cell lysate.

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Dramatic increase of quench efficiency in “spacerless” dimaleimide fluorogens

2011

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In this post-genomic era, new techniques are needed to cope with the task of assigning functional roles to the huge number of identified putative gene products. We have developed a minimalist labelling strategy based on the use of synthetic fluorogenic probe reagents that fluoresce only after their reaction with a target peptide sequence. The probe reagents have fluorescent cores and bear two maleimide groups, such that their latent fluorescence is quenched by a photoinduced electron transfer (PET) to the pendant maleimide groups, until both of these groups undergo a specific thiol addition reaction. The efficiency of the fluorescence quenching is critical to the practicality of this labelling method, and has been predicted to be related to the intramolecular distance between the fluorophore and the maleimide groups. We have conducted the first direct test of this hypothesis by preparing a series of novel fluorogens that differ only by the spacer moiety separating their coumarin fluorophore and their dimaleimide fragment. A striking correlation was observed between intramolecular distance and the fluorescence enhancement (FE) observed after reaction with two equivalents of thiol. Guided by this observation, we then designed 'spacerless' fluorogens, of which a dansyl derivative shows an FE ratio of >300, the largest recorded for dimaleimide fluorogens. The trends observed herein provide valuable lessons for subsequent fluorogen design, and the novel fluorogens developed in the course of this study are currently being applied to protein labelling applications.

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Synthesis and evaluation of peptidic maleimides as transglutaminase inhibitors

Halim

Caron

Keillor

2007

Bioorganic & Medicinal Chemistry Letters

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Karine Caron

Convergent Preparation and Photophysical Characterization of Dimaleimide Dansyl Fluorogens: Elucidation of the Maleimide Fluorescence Quenching Mechanism

De novo helical peptides as target sequences for a specific, fluorogenic protein labelling strategy

ATP Recycling with Cell Lysate for Enzyme-Catalyzed Chemical Synthesis, Protein Expression and PCR

Dramatic increase of quench efficiency in “spacerless” dimaleimide fluorogens

Synthesis and evaluation of peptidic maleimides as transglutaminase inhibitors

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