# Structures and broad-spectrum growth-inhibiting activity of formomarinobactin, formylated marinobactin analogs from the Pseudomonas lutea group

**Authors:** Camille Grosse, Kristelle Hughes, Marie Lavender, Bertrand Cornu, Grégory Ploegaerts, Nathalie Brandt, Sandra Matthijs

PMC · DOI: 10.3389/fmicb.2026.1788039 · 2026-03-13

## TL;DR

A new type of iron-binding molecule called formomarinobactin is found in certain Pseudomonas bacteria, and it not only helps them acquire iron but also inhibits the growth of other microbes.

## Contribution

Discovery of formomarinobactin, a novel formylated marinobactin analog with dual roles in iron acquisition and growth inhibition.

## Key findings

- Formomarinobactin has a formylated hexapeptide backbone and shorter lipid tails compared to marinobactin.
- Formomarinobactin production is conserved in the P. lutea group except for a cheater strain.
- Formomarinobactin inhibits growth of Gram-positive bacteria and has some effect on Gram-negative bacteria.

## Abstract

Pseudomonas graminis LMG 21661T, an environmental strain of the P. lutea group, produces the siderophore formomarinobactin, a novel marinobactin-like siderophore. Mass spectrometry revealed that formomarinobactin shares the same six-residue peptide backbone as marinobactin but contains formylated rather than acetylated N-hydroxyornithines. Alike marinobactins, formomarinobactins are produced as a suite of siderophores with a conserved hexapeptide core but varying lipid tail lengths (C10–C14), shorter than the C12–C18 characteristic of marinobactins. Both the biosynthesis and cognate receptor genes of the formomarinobactin system in P. graminis are iron regulated but unaffected by zinc or nickel underscoring their role in iron homeostasis. Genome mining combined with mass analyses demonstrated that formomarinobactin production is a conserved trait across the P. lutea group, with one exception which appears to represent an intraspecific cheater that has lost siderophore production. Beyond the producing strains themselves, we identified a widespread distribution of putative formomarinobactin receptors among diverse Pseudomonas species, revealing a substantial capacity within the P. fluorescens lineage to pirate formomarinobactin as an iron source. Putative receptors were also found in genera outside the Pseudomonas genus. Growth stimulation assays confirmed functional formomarinobactin uptake in several Pseudomonas spp. and a Phytopseudomonas strain, with genetic validation in Pseudomonas rhodesiae. Importantly, formomarinobactin production confers more than a nutritional advantage. Members of the P. lutea group producing formomarinobactin display pronounced growth inhibiting activity against a broad spectrum of clinical and environmental Gram-positive and with lower efficacy against Gram-negative bacteria. Purified formomarinobactin was able to inhibit growth under iron-limiting conditions and to a lesser extent in iron-rich conditions, highlighting a dual role for this molecule in both iron acquisition and microbial growth inhibition.

## Linked entities

- **Species:** Pseudomonas lutea (taxon 243924), Pseudomonas rhodesiae (taxon 76760), Phytopseudomonas (taxon 3236657)

## Full-text entities

- **Chemicals:** nickel (MESH:D009532), N-hydroxyornithines (-), iron (MESH:D007501), zinc (MESH:D015032), lipid (MESH:D008055)
- **Species:** Puccinia graminis (wheat stem rust, species) [taxon 5297], Bacteria Latreille et al. 1825 (Bacteria stick insect, genus) [taxon 629395], Pseudomonas lutea (species) [taxon 243924], Pseudomonas rhodesiae (species) [taxon 76760], Pseudomonas fluorescens (species) [taxon 294]

## Figures

10 figures with captions in the complete paper: https://tomesphere.com/paper/PMC13037486/full.md

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Source: https://tomesphere.com/paper/PMC13037486