Yilong Lian scite author profile

Proteases are ubiquitous in nature, whereas naturally occurring peptide ligases, enzymes catalyzing the reverse reactions of proteases, are rare occurrences. Here we describe the discovery of butelase 1, to our knowledge the first asparagine/aspartate (Asx) peptide ligase to be reported. This highly efficient enzyme was isolated from Clitoria ternatea, a cyclic peptide-producing medicinal plant. Butelase 1 shares 71% sequence identity and the same catalytic triad with legumain proteases but does not hydrolyze the protease substrate of legumain. Instead, butelase 1 cyclizes various peptides of plant and animal origin with yields greater than 95%. With Kcat values of up to 17 s(-1) and catalytic efficiencies as high as 542,000 M(-1) s(-1), butelase 1 is the fastest peptide ligase known. Notably, butelase 1 also displays broad specificity for the N-terminal amino acids of the peptide substrate, thus providing a new tool for C terminus-specific intermolecular peptide ligations.

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Discovery of Linear Cyclotides in Monocot Plant Panicum laxum of Poaceae Family Provides New Insights into Evolution and Distribution of Cyclotides in Plants

Nguyen

Lian

Pang

et al. 2013

Journal of Biological Chemistry

113

112

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Background: Cyclotides are biologically active, plant-derived macrocyclic peptides. All cyclotides and their acyclic variants have been isolated from dicots. Results: We characterized nine novel linear cyclotides from monocot plant Panicum laxum. Conclusion: Our study provides the first evidence of linear cyclotides at the protein level in the Poaceae. Significance: Ancient linear cyclotide analogs may have existed before the divergence of dicots and monocots.

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Tracking genome-editing and associated molecular perturbations by SWATH mass spectrometry

Lin

Low

Lau

et al. 2019

Sci Rep

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Advances in gene editing now allow reverse genetics to be applied to a broad range of biological systems. Ultimately, any modification to coding sequences requires confirmation at the protein level, although immunoblotting is often hampered by antibody quality or availability especially in non-model species. Sequential Window Acquisition of All Theoretical Spectra (SWATH), a mass spectrometry (MS) technology with exceptional quantitative reproducibility and accuracy, offers an ideal alternative for protein-based confirmation. Here, using genome edits in mouse, zebrafish and Bicyclus anynana butterflies produced using either homologous recombination or targeted nucleases, we demonstrate absence of the targeted proteins using SWATH, thus confirming successful editing. We show that SWATH is a robust antibody-independent alternative for monitoring gene editing at the protein level and broadly applicable across diverse organisms and targeted genome manipulation techniques. Moreover, SWATH concomitantly defines the global proteome response in the edited organism, which may provide pertinent biological insights.

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Identification of Antibacterial Components in Human Hair Shafts

Subbaiah¹,

Kerk²,

Lian³

et al. 2018

Acta Derm Venerol

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Study of vaults in skin biology and host defence - from in vitro to in vivo

Lian¹

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Yilong Lian

Butelase 1 is an Asx-specific ligase enabling peptide macrocyclization and synthesis

Discovery of Linear Cyclotides in Monocot Plant Panicum laxum of Poaceae Family Provides New Insights into Evolution and Distribution of Cyclotides in Plants

Tracking genome-editing and associated molecular perturbations by SWATH mass spectrometry

Identification of Antibacterial Components in Human Hair Shafts

Study of vaults in skin biology and host defence - from in vitro to in vivo

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