Simon K. Poon scite author profile

Asparaginyl endopeptidases (AEPs) are proteases that have crucial roles in plant defense and seed storage protein maturation. Select plant AEPs, however, do not function as proteases but as transpeptidases (ligases) catalyzing the intra-molecular ligation of peptide termini, which leads to peptide cyclization. These ligase-type AEPs have potential biotechnological applications ranging from in vitro peptide engineering to plant molecular farming, but the structural features enabling these enzymes to catalyze peptide ligation/cyclization rather than proteolysis are currently unknown. Here, we compare the sequences, structures, and functions of diverse plant AEPs by combining molecular modeling, sequence space analysis, and functional testing in planta. We find that changes within the substrate-binding pocket and an adjacent loop, here named the “marker of ligase activity”, together play a key role for AEP ligase efficiency. Identification of these structural determinants may facilitate the discovery of more ligase-type AEPs and the engineering of AEPs with tailored catalytic properties.

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A suite of kinetically superior AEP ligases can cyclise an intrinsically disordered protein

Harris

Guarino

Dissanayake

et al. 2019

Sci Rep

104

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Asparaginyl endopeptidases (AEPs) are a class of enzymes commonly associated with proteolysis in the maturation of seed storage proteins. However, a subset of AEPs work preferentially as peptide ligases, coupling release of a leaving group to formation of a new peptide bond. These “ligase-type” AEPs require only short recognition motifs to ligate a range of targets, making them useful tools in peptide and protein engineering for cyclisation of peptides or ligation of separate peptides into larger products. Here we report the recombinant expression, ligase activity and cyclisation kinetics of three new AEPs from the cyclotide producing plant Oldenlandia affinis with superior kinetics to the prototypical recombinant AEP ligase OaAEP1 b . These AEPs work preferentially as ligases at both acidic and neutral pH and we term them “canonical AEP ligases” to distinguish them from other AEPs where activity preferences shift according to pH. We show that these ligases intrinsically favour ligation over hydrolysis, are highly efficient at cyclising two unrelated peptides and are compatible with organic co-solvents. Finally, we demonstrate the broad scope of recombinant AEPs in biotechnology by the backbone cyclisation of an intrinsically disordered protein, the 25 kDa malarial vaccine candidate Plasmodium falciparum merozoite surface protein 2 (MSP2).

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Top management support—almost always necessary and sometimes sufficient for success: Findings from a fuzzy set analysis

Young

Poon

2013

International Journal of Project Management

100

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Process mining for healthcare: Characteristics and challenges

Muñoz-Gama

Martin

Fernández-Llatas

et al. 2022

Journal of Biomedical Informatics

139

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Simon K. Poon

Effects of knowledge management strategy on organizational performance: A complementarity theory-based approach

Molecular basis for the production of cyclic peptides by plant asparaginyl endopeptidases

A suite of kinetically superior AEP ligases can cyclise an intrinsically disordered protein

Top management support—almost always necessary and sometimes sufficient for success: Findings from a fuzzy set analysis

Process mining for healthcare: Characteristics and challenges

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