# Transcriptome-guided discovery and active-site gatekeeper engineering of a Viola arcuata asparaginyl ligase with superior catalytic performance

**Authors:** Qiongyan Zou, Yujiao Yan, Xinglei Zou, Peng Jiang, Jiongwen Qin, Xue Tang, Fawei He, Dongting Zhangsun, Sulan Luo, Yong Wu

PMC · DOI: 10.1016/j.jbc.2026.111301 · The Journal of Biological Chemistry · 2026-02-17

## TL;DR

Researchers discovered and improved a new enzyme from Viola arcuata that efficiently creates peptide macrocycles, especially under mild conditions.

## Contribution

A novel and highly efficient asparaginyl ligase, VaPAL2(I244A), was engineered with superior catalytic performance and operational robustness.

## Key findings

- VaPAL2(I244A) shows rapid macrocyclization of GN-type substrates and strong ligation bias on branched sequences.
- The enzyme exhibits improved tolerance to organic cosolvents like 20% DMSO and retains activity at near-neutral pH.
- Structural modeling reveals that the I244A substitution widens the substrate corridor while preserving catalytic architecture.

## Abstract

Peptide macrocyclization by ligase-type asparaginyl endopeptidases (AEPs) underpins many emerging applications in peptide and protein engineering, yet only a few recombinant ligases currently offer suitable catalytic performance and operational robustness. Here we characterize VaPAL2, a previously unreported AEP from Viola arcuata, and show that its activity can be substantially enhanced through a single gatekeeper substitution. The engineered variant, VaPAL2(I244A), functions as a highly efficient peptide ligase, displaying rapid macrocyclization of GN-type substrates, strong ligation bias on branched sequences, and markedly improved tolerance to organic cosolvents such as 20% DMSO. Notably, VaPAL2(I244A) retains its high activity at near-neutral pH, making it compatible with preparative and protein-compatible conditions. Structural modeling indicates that the I244A substitution modestly widens the S1′–S2 substrate corridor, facilitating nucleophile entry while preserving the catalytic architecture. Together, these findings establish VaPAL2(I244A) as a new, robust macrocyclase that matches or exceeds the performance of widely used recombinant AEP ligase benchmarks under standardized conditions and meaningfully expands the enzymatic toolbox available for chemical biology and peptide engineering.

## Linked entities

- **Chemicals:** DMSO (PubChem CID 679)
- **Species:** Viola arcuata (taxon 909199)

## Full-text entities

- **Chemicals:** DMSO (MESH:D004121)
- **Species:** Viola arcuata (species) [taxon 909199]
- **Mutations:** I244A

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12995904/full.md

## References

45 references — full list in the complete paper: https://tomesphere.com/paper/PMC12995904/full.md

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Source: https://tomesphere.com/paper/PMC12995904