Illuminating the Genomic Landscape of Lactiplantibacillus plantarum PU3—A Novel Probiotic Strain Isolated from Human Breast Milk, Explored through Nanopore Sequencing

Author:

Mollova Daniela1,Gozmanova Mariyana2,Apostolova Elena2ORCID,Yahubyan Galina2,Iliev Ilia1,Baev Vesselin2ORCID

Affiliation:

1. Faculty of Biology, Department of Biochemistry and Microbiology, University of Plovdiv, Tzar Assen 24, 4000 Plovdiv, Bulgaria

2. Faculty of Biology, Department of Plant Physiology and Molecular Biology, University of Plovdiv, Tzar Assen 24, 4000 Plovdiv, Bulgaria

Abstract

Lactiplantibacillus plantarum stands out as a remarkably diverse species of lactic acid bacteria, occupying a myriad of ecological niches. Particularly noteworthy is its presence in human breast milk, which can serve as a reservoir of probiotic bacteria, contributing significantly to the establishment and constitution of infant gut microbiota. In light of this, our study attempted to conduct an initial investigation encompassing both genomic and phenotypic aspects of the L. plantarum PU3 strain, that holds potential as a probiotic agent. By employing the cutting-edge third-generation Nanopore sequencing technology, L. plantarum PU3 revealed a circular chromosome of 3,180,940 bp and nine plasmids of various lengths. The L. plantarum PU3 genome has a total of 2962 protein-coding and non-coding genes. Our in-depth investigations revealed more than 150 probiotic gene markers that unfold the genetic determinants for acid tolerance, bile resistance, adhesion, and oxidative and osmotic stress. The in vivo analysis showed the strain’s proficiency in utilizing various carbohydrates as growth substrates, complementing the in silico analysis of the genes involved in metabolic pathways. Notably, the strain demonstrated a pronounced affinity for D-sorbitol, D-mannitol, and D-Gluconic acid, among other carbohydrate sources. The in vitro experimental verification of acid, osmotic and bile tolerance validated the robustness of the strain in challenging environments. Encouragingly, no virulence factors were detected in the genome of PU3, suggesting its safety profile. In search of beneficial properties, we found potential bacteriocin biosynthesis clusters, suggesting its capability for antimicrobial activity. The characteristics exhibited by L. plantarum PU3 pave the way for promising strain potential, warranting further investigations to unlock its full capacity and contributions to probiotic and therapeutic avenues.

Funder

Bulgarian National Science Fund

Personalized Innovative Medicine Competence Center

Publisher

MDPI AG

Subject

Virology,Microbiology (medical),Microbiology

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