Ross Taylor scite author profile

Fusion proteins play an essential role in the biosciences but suffer from several key limitations, including the requirement for N-to-C terminal ligation, incompatibility of constituent domains, incorrect folding, and loss of biological activity. This perspective focuses on chemical and enzymatic approaches for the post-translational generation of well-defined protein−protein conjugates, which overcome some of the limitations faced by traditional fusion techniques. Methods discussed range from chemical modification of nucleophilic canonical amino acid residues to incorporation of unnatural amino acid residues and a range of enzymatic methods, including sortase-mediated ligation. Through summarizing the progress in this rapidly growing field, the key successes and challenges associated with using chemical and enzymatic approaches are highlighted and areas requiring further development are discussed.

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Platform for Orthogonal N-Cysteine-Specific Protein Modification Enabled by Cyclopropenone Reagents

Istrate

Geeson

Navo

et al. 2022

J. Am. Chem. Soc.

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Protein conjugates are valuable tools for studying biological processes or producing therapeutics, such as antibody− drug conjugates. Despite the development of several protein conjugation strategies in recent years, the ability to modify one specific amino acid residue on a protein in the presence of other reactive side chains remains a challenge. We show that monosubstituted cyclopropenone (CPO) reagents react selectively with the 1,2-aminothiol groups of N-terminal cysteine residues to give a stable 1,4-thiazepan-5-one linkage under mild, biocompatible conditions. The CPO-based reagents, all accessible from a common activated ester CPO-pentafluorophenol (CPO-PFP), allow selective modification of N-terminal cysteine-containing peptides and proteins even in the presence of internal, solvent-exposed cysteine residues. This approach enabled the preparation of a dual protein conjugate of 2×cys-GFP, containing both internal and N-terminal cysteine residues, by first modifying the N-terminal residue with a CPO-based reagent followed by modification of the internal cysteine with a traditional cysteine-modifying reagent. CPO-based reagents enabled a copper-free click reaction between two proteins, producing a dimer of a de novo protein mimic of IL2 that binds to the β-IL2 receptor with low nanomolar affinity. Importantly, the reagents are compatible with the common reducing agent dithiothreitol (DTT), a useful property for working with proteins prone to dimerization. Finally, quantum mechanical calculations uncover the origin of selectivity for CPO-based reagents for N-terminal cysteine residues. The ability to distinguish and specifically target N-terminal cysteine residues on proteins facilitates the construction of elaborate multilabeled bioconjugates with minimal protein engineering.

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Eliciting the smoker's agenda: implications for policy and practice

McKie

Laurier

Taylor

et al. 2003

Social Science & Medicine

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A Structural Ensemble of a Tau-Microtubule Complex Reveals Regulatory Tau Phosphorylation and Acetylation Mechanisms

et al. 2021

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Tau is a microtubule-associated protein that regulates the stability of microtubules. We use metainference cryoelectron microscopy, an integrative structural biology approach, to determine an ensemble of conformations representing the structure and dynamics of a tau-microtubule complex comprising the entire microtubule-binding region of tau (residues 202–395). We thus identify the ground state of the complex and a series of excited states of lower populations. A comparison of the interactions in these different states reveals positions along the tau sequence that are important to determine the overall stability of the tau-microtubule complex. This analysis leads to the identification of positions where phosphorylation and acetylation events have destabilizing effects, which we validate by using site-specific post-translationally modified tau variants obtained by chemical mutagenesis. Taken together, these results illustrate how the simultaneous determination of ground and excited states of macromolecular complexes reveals functional and regulatory mechanisms.

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Stages of Change training for opportunistic smoking intervention by the primary health care team. Part I : randomised controlled trial of the effect of training on patient smoking outcomes and health professional behaviour as recalled by patients

Lennox

Bain

Taylor

et al. 1998

Health Education Journal

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The Stages of Change approach to smoking cessation intervention is increasingly advocated in primary care, and training in the approach is readily available.However, there has been little formal evaluation of the effectiveness of such training. A one-day Stages of Change training for primary health care teams was evaluated using both quantitative analysis of patient outcomes in a randomised controlled trial, and qualitative analysis of interviews with workshop participants. This paper reports the quantitative findings. Patients in the intervention group were more likely than controls to recall smoking having been mentioned in a consultation, but there were no significant effects of the intervention on patient smoking outcomes fourteen months after the workshops.

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Ross Taylor

Chemical and Enzymatic Methods for Post-Translational Protein–Protein Conjugation

Platform for Orthogonal N-Cysteine-Specific Protein Modification Enabled by Cyclopropenone Reagents

Eliciting the smoker's agenda: implications for policy and practice

A Structural Ensemble of a Tau-Microtubule Complex Reveals Regulatory Tau Phosphorylation and Acetylation Mechanisms

Stages of Change training for opportunistic smoking intervention by the primary health care team. Part I : randomised controlled trial of the effect of training on patient smoking outcomes and health professional behaviour as recalled by patients

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