Genomics and transcriptomics insights into luteolin effects on the beta‐rhizobial strain Cupriavidus necator UYPR2.512

• Published in: Environmental microbiology Vol. 24; no. 1; pp. 240 - 264
• Main Authors: Rodríguez‐Esperón, M. C., Eastman, G., Sandes, L., Garabato, F., Eastman, I., Iriarte, A., Fabiano, E., Sotelo‐Silveira, J. R., Platero, R.
• Format: Journal Article
• Language: English
• Published: Hoboken, USA John Wiley & Sons, Inc 01.01.2022; Wiley Subscription Services, Inc
• Subjects: Biosynthesis; Chromosomes; Cupriavidus - genetics; Cupriavidus necator; Cupriavidus necator - genetics; Exopolysaccharides; Fabaceae - microbiology; Flagella; Genes; Genomes; Genomics; Heavy metals; Identification; Legumes; Luteolin - metabolism; Luteolin - pharmacology; Metabolism; Metals; Nitrogen Fixation; Nitrogen metabolism; Phylogeny; Rhizobium - genetics; Symbionts; Symbiosis; Symbiosis - genetics; Transcriptome; Transcriptomics
• ISSN: 1462-2912; 1462-2920
• DOI: 10.1111/1462-2920.15845

Summary Cupriavidus necator UYPR2.512 is a rhizobial strain that belongs to the Beta‐subclass of proteobacteria, able to establish successful symbiosis with Mimosoid legumes. The initial steps of rhizobium‐legumes symbioses involve the reciprocal recognition by chemical signals, being luteolin one of the molecules involved. However, there is a lack of information on the effect of luteolin in beta‐rhizobia. In this work, we used long‐read sequencing to complete the genome of UYPR2.512 providing evidence for the existence of four closed circular replicons. We used an RNA‐Seq approach to analyse the response of UYPR2.512 to luteolin. One hundred and forty‐five genes were differentially expressed, with similar numbers of downregulated and upregulated genes. Most repressed genes were mapped to the main chromosome, while the upregulated genes were overrepresented among pCne512e, containing the symbiotic genes. Induced genes included the nod operon and genes implicated in exopolysaccharides and flagellar biosynthesis. We identified many genes involved in iron, copper and other heavy metals metabolism. Among repressed genes, we identified genes involved in basal carbon and nitrogen metabolism. Our results suggest that in response to luteolin, C. necator strain UYPR2.512 reshapes its metabolism in order to be prepared for the forthcoming symbiotic interaction.