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Comparative genomics of plant growth promoting phosphobacteria isolated from acidic soils.
Cortés-Albayay, Carlos; Delgado-Torres, Mabel; Larama, Giovanni; Paredes-Negron, Cecilia; de la Luz Mora, María; Durán, Paola; Barra, Patricio Javier.
Afiliación
  • Cortés-Albayay C; Centre of Plant and Soil Interaction, Natural Resources Biotechnology, Scientific and Technological Bioresource Nucleus (BIOREN), Universidad de La Frontera, 4811230, Temuco, Chile.
  • Delgado-Torres M; Biocontrol Research Laboratory, Universidad de La Frontera, 4811230, Temuco, Chile.
  • Larama G; Centre of Plant and Soil Interaction, Natural Resources Biotechnology, Scientific and Technological Bioresource Nucleus (BIOREN), Universidad de La Frontera, 4811230, Temuco, Chile.
  • Paredes-Negron C; Centre of Plant and Soil Interaction, Natural Resources Biotechnology, Scientific and Technological Bioresource Nucleus (BIOREN), Universidad de La Frontera, 4811230, Temuco, Chile.
  • de la Luz Mora M; Biocontrol Research Laboratory, Universidad de La Frontera, 4811230, Temuco, Chile.
  • Durán P; Centre of Plant and Soil Interaction, Natural Resources Biotechnology, Scientific and Technological Bioresource Nucleus (BIOREN), Universidad de La Frontera, 4811230, Temuco, Chile.
  • Barra PJ; Centre of Plant and Soil Interaction, Natural Resources Biotechnology, Scientific and Technological Bioresource Nucleus (BIOREN), Universidad de La Frontera, 4811230, Temuco, Chile.
Antonie Van Leeuwenhoek ; 117(1): 76, 2024 May 05.
Article en En | MEDLINE | ID: mdl-38705910
ABSTRACT
Despite being one of the most abundant elements in soil, phosphorus (P) often becomes a limiting macronutrient for plants due to its low bioavailability, primarily locked away in insoluble organic and inorganic forms. Phosphate solubilizing and mineralizing bacteria, also called phosphobacteria, isolated from P-deficient soils have emerged as a promising biofertilizer alternative, capable of converting these recalcitrant P forms into plant-available phosphates. Three such phosphobacteria strains-Serratia sp. RJAL6, Klebsiella sp. RCJ4, and Enterobacter sp. 198-previously demonstrated their particular strength as plant growth promoters for wheat, ryegrass, or avocado under abiotic stresses and P deficiency. Comparative genomic analysis of their draft genomes revealed several genes encoding key functionalities, including alkaline phosphatases, isonitrile secondary metabolites, enterobactin biosynthesis and genes associated to the production of indole-3-acetic acid (IAA) and gluconic acid. Moreover, overall genome relatedness indexes (OGRIs) revealed substantial divergence between Serratia sp. RJAL6 and its closest phylogenetic neighbours, Serratia nematodiphila and Serratia bockelmanii. This compelling evidence suggests that RJAL6 merits classification as a novel species. This in silico genomic analysis provides vital insights into the plant growth-promoting capabilities and provenance of these promising PSRB strains. Notably, it paves the way for further characterization and potential application of the newly identified Serratia species as a powerful bioinoculant in future agricultural settings.
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Texto completo: 1 Colección: 01-internacional Base de datos: MEDLINE Asunto principal: Filogenia / Serratia / Microbiología del Suelo / Genoma Bacteriano / Genómica / Enterobacter / Ácidos Indolacéticos Idioma: En Revista: Antonie Van Leeuwenhoek Año: 2024 Tipo del documento: Article País de afiliación: Chile Pais de publicación: Países Bajos
Texto completo
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Texto completo: 1 Colección: 01-internacional Base de datos: MEDLINE Asunto principal: Filogenia / Serratia / Microbiología del Suelo / Genoma Bacteriano / Genómica / Enterobacter / Ácidos Indolacéticos Idioma: En Revista: Antonie Van Leeuwenhoek Año: 2024 Tipo del documento: Article País de afiliación: Chile Pais de publicación: Países Bajos