Abstract
The interactions between the plant-derived bioflavonoid, naringenin, and prokaryotic microalgae representatives (cyanobacteria), were investigated with respect to its influence on the growth and metabolic response of these microorganisms. To achieve reliable results, the growth of cyanobacteria was determined based on measurements of chlorophyll content, morphological changes were assessed through microscopic observations, and the chemical response of cells was determined using liquid and gas chromatography (HPLC; GC-FID). The results show that micromolar levels of naringenin stimulated the growth of cyanobacteria. Increased growth was observed for halophilic strains at naringenin concentrations below 40 mg L-1, and in freshwater strains at concentrations below 20 mg L-1. The most remarkable stimulation was observed for the freshwater species Nostoc muscorum, which had a growth rate that was up to 60% higher than in the control. When naringenin was examined at concentrations above 40 mg L-1, the growth of the tested microorganisms was inhibited. Simultaneously, an intensive excretion of exopolysaccharides was observed. Microscopic observations strongly suggest that these effects resulted from a structural disturbance of cyanobacterial cell walls that was exerted by naringenin. This phenomenon, in combination with the absorption of naringenin into cell wall structures, influenced cell permeability and thus the growth of bacteria. Fortunately, almost all the naringenin added to the culture was incorporated into to cell substructures and could be recovered through extraction, raising the possibility that this modulator could be recycled.
Highlights
A growing interest in using cyanobacteria in biotechnological processes is reflected in the increasing number of published papers and patents
Multifaceted activity of naringenin towards cyanobacteria examples are related to the presence of flavonoids in cyanobacterial cells and the culture media used to grow them [1,2,3,4,5], with cells being reported to accumulate these natural compounds to near millimolar levels when grown in different media [6]
The growth of Anabaena laxa and Nodularia moravica was significantly inhibited in media that contained 60 or 80 mg L-1 naringenin, whereas Nostoc cf. muscorum was only inhibited in the presence of 100 mg L-1 of naringenin
Summary
A growing interest in using cyanobacteria in biotechnological processes is reflected in the increasing number of published papers and patents. Little information is available concerning the interactions of these photosynthetic bacteria with natural compounds of plant origin, such as flavonoids, which are released into aquatic environments. Multifaceted activity of naringenin towards cyanobacteria examples are related to the presence of flavonoids in cyanobacterial cells and the culture media used to grow them [1,2,3,4,5], with cells being reported to accumulate these natural compounds to near millimolar levels when grown in different media [6]. The interactions between natural compounds of plant origin and cyanobacteria remain poorly understood, especially with regards to the unknown mechanism(s) of metabolic responses of these microorganisms. The study of such an interaction is a reasonable approach
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