Showing papers on "Salinispora arenicola published in 2016"

Competitive strategies differentiate closely related species of marine actinobacteria.

Abstract: Although competition, niche partitioning, and spatial isolation have been used to describe the ecology and evolution of macro-organisms, it is less clear to what extent these principles account for the extraordinary levels of bacterial diversity observed in nature. Ecological interactions among bacteria are particularly challenging to address due to methodological limitations and uncertainties over how to recognize fundamental units of diversity and link them to the functional traits and evolutionary processes that led to their divergence. Here we show that two closely related marine actinomycete species can be differentiated based on competitive strategies. Using a direct challenge assay to investigate inhibitory interactions with members of the bacterial community, we observed a temporal difference in the onset of inhibition. The majority of inhibitory activity exhibited by Salinispora arenicola occurred early in its growth cycle and was linked to antibiotic production. In contrast, most inhibition by Salinispora tropica occurred later in the growth cycle and was more commonly linked to nutrient depletion or other sources. Comparative genomics support these differences, with S. arenicola containing nearly twice the number of secondary metabolite biosynthetic gene clusters as S. tropica, indicating a greater potential for secondary metabolite production. In contrast, S. tropica is enriched in gene clusters associated with the acquisition of growth-limiting nutrients such as iron. Coupled with differences in growth rates, the results reveal that S. arenicola uses interference competition at the expense of growth, whereas S. tropica preferentially employs a strategy of exploitation competition. The results support the ecological divergence of two co-occurring and closely related species of marine bacteria by providing evidence they have evolved fundamentally different strategies to compete in marine sediments.

Compounds isolated from Salinispora arenicola of the Gulf of California, México

Abstract: La actinobacteria marina AMS370, identificada mediante comparacion de las secuencias del gen 16S del ARNr como Salinispora arenicola, fue aislada a partir de sedimento del Golfo de California, Mexico. De su extracto semi-polar, se aislaron 8 compuestos conocidos: acido-4-Hidroxi-fenil acetico (1), 5-Metil-2-metilen-2,3-dihidro-1H-pirimidin-4-ona (2), 1H-Pirimidin-2,4-diona (3), acido-3-amino-5-hidroxi-benzoico (4), 2-(4-Amino-imidazol-[4,5-d]piridazin-1-il)-5-hidroximetil-4-metil-tetrahidro -furan-3-ol (5), Acrilato de 3-(4-Hidroxi-genil)-metilo (6), 3-Bencil-6-isobutil-piperazin-2,5-diona (7) y 5,8-epidioxi-(22E,24R)-ergosta-6,22-dien-3-ol (Peroxido de Ergosterol) (8). La identificacion quimica fue realizada mediante comparacion de sus espectros de RMN con los espectros de los compuestos originales. Esta seria la primera ocasion que el compuesto 4 se reporta como un producto natural a partir del genero Salinispora. El extracto crudo y todas sus fracciones fueron ensayadas contra Bacillus cereus, Escherichia coli, Enterococcus faecalis, Klebsiella pneumoniae, Proteus mirabilis, Staphylococcus aureus, Salmonella sp. y Candida albicans para probar su actividad antibiotica y antifungica en el caso de la ultima especie. Asimismo se evaluo su actividad citotoxica frente a las lineas celulares de cancer de mama (MCF-7), cervicouterino (HeLa) y colorectal (HCT-116). Solamente el extracto crudo semipolar y las fracciones 5.1 y 5.2 resultaron activas contra Klebsiella pneumoniae y Staphylococcus aureus.