# Genomic insights into indole-3-acetic acid catabolism in the marine algae-associated bacterium, Marinomonas sp. NFXS50

**Authors:** Constança Bertrand, Rodrigo Martins, Francisco Nunes, Pedro Brandão, Francisco X. Nascimento

PMC · DOI: 10.1099/acmi.0.000856.v3 · 2024-09-04

## TL;DR

This paper explores how a marine bacterium breaks down a plant growth hormone called IAA, revealing new insights into its genetic adaptations and ecological role.

## Contribution

The study identifies and analyzes a novel IAA catabolism gene cluster in Marinomonas sp. NFXS50, highlighting its potential ecological significance.

## Key findings

- The Marinomonas sp. NFXS50 genome contains homologs of the Pseudomonas iac gene cluster involved in IAA catabolism.
- The iac gene cluster in Marinomonas differs in content and organization compared to Pseudomonas putida 1290.
- The presence of iac genes in multiple Marinomonas species suggests their ecological importance in marine environments.

## Abstract

Auxins, mainly in the form of indole-3-acetic acid (IAA), regulate several aspects of plant and algal growth and development. Consequently, plant and algae-associated bacteria developed the ability to modulate IAA levels, including IAA catabolism. In this work, we present and analyse the genome sequence of the IAA-degrading and marine algae-associated bacterium, Marinomonas sp. NFXS50, analyse its IAA catabolism gene cluster and study the prevalence of IAA catabolism genes in other Marinomonas genomes. Our findings revealed the presence of homologs of the Pseudomonas iac gene cluster, implicated in IAA catabolism, in the genome of strain NFXS50; however, differences were observed in the content and organization of the Marinomonas iac gene cluster when compared to that of the model iac-containing Pseudomonas putida 1290. These variations suggest potential adaptations in the IAA catabolism pathway, possibly influenced by substrate availability and evolutionary factors. The prevalence of iac genes across several Marinomonas species underscores the significance of IAA catabolism in marine environments, potentially influencing plant/algae-bacteria interactions. This study provides novel insights into the IAA catabolism in Marinomonas, laying the groundwork for future investigations into the role of iac genes in Marinomonas physiology and the regulation of marine plant/algae-bacteria interactions.

## Linked entities

- **Genes:** Iac (iris anomaly with cataract) [NCBI Gene 104377]
- **Chemicals:** indole-3-acetic acid (PubChem CID 802), IAA (PubChem CID 802)

## Full-text entities

- **Chemicals:** Auxins (MESH:D007210), IAA (MESH:C030737)
- **Species:** Marinomonas sp. (species) [taxon 1904862], PX clade (clade) [taxon 569578]

## Figures

3 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11373566/full.md

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Source: https://tomesphere.com/paper/PMC11373566