# In vitro synthesis and biochemical characterization of acyl-homoserine lactone synthase and its deletion mutant

**Authors:** Yechan Jeong, Sunwoo Moon, Jae-hwa Shin

PMC · DOI: 10.1371/journal.pone.0304331 · 2024-05-31

## TL;DR

This study explores how deleting the active site of an enzyme involved in bacterial communication reduces its function, offering a potential way to inhibit harmful bacterial behaviors.

## Contribution

The study demonstrates in vitro synthesis and biochemical analysis of a deletion mutant of AHL synthase, revealing its reduced activity.

## Key findings

- His-YpeI and His-ΔYpeI had expected molecular weights and showed distinct enzyme activity differences.
- Deletion of the active site significantly reduced substrate affinity and reaction rate.
- CFPS was validated as a method for synthesizing and analyzing these enzymes.

## Abstract

Quorum sensing can induce density-dependent gene expressions that cause various problems. For quorum-sensing inhibition, fundamental solutions such as gene manipulation are required, and acyl-homoserine lactone synthase (AHL synthase), which synthesizes the universal quorum-sensing signal of gram-negative bacteria, can be used as a target. In this study, researchers synthesized His-tagged AHL synthase and its deletion mutant that lacks the active site and compared their biochemical characteristics. His-YpeI, the 6x His-tagged AHL synthase of Serratia fonticola, and His-ΔYpeI, its deletion mutant, were designed, and their property conservation were examined using in silico projection tools. For in vitro synthesis of enzymes, the His-YpeI CFPS template was synthesized by in vitro gene synthesis, and the His-ΔYpeI CFPS template was obtained by deletion PCR. CFPS was performed and the products were purified with the 6x His-tag. The enzymes’ properties were compared using an enzymatic assay. The bioinformatic analysis confirmed the conservation of biochemical properties between 6x His-tagged and untagged enzymes, including helix-turn-helix interactions, hydropathy profiles, and tertiary structure between His-YpeI and YpeI and between His-ΔYpeI and ΔYpeI. His-YpeI and His-ΔYpeI synthesized by CFPS were found to have the expected molecular weights and demonstrated distinct differences in enzyme activity. The analyzed enzymatic constants supported a significant decrease in substrate affinity and reaction rate as a result of YpeI’s enzyme active site deletion. This result showed that CFPS could be used for in vitro protein synthesis, and quorum sensing could be inhibited at the enzymatic level due to the enzyme active site’s deletion mutation.

## Linked entities

- **Species:** Serratia fonticola (taxon 47917)

## Full-text entities

- **Chemicals:** His (MESH:D006639), CFPS (MESH:C035346)
- **Species:** Serratia fonticola (species) [taxon 47917]

## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11142500/full.md

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Source: https://tomesphere.com/paper/PMC11142500