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Light spectrum modifies the utilization pattern of energy sources in Pseudomonas sp. DR 5-09

 
: Gharaie, S.; Vaas, L.A.I.; Rosberg, A.K.; Windstam, S.T.; Karlsson, M.E.; Bergstrand, K.-J.; Khalil, S.; Wohanka, W.; Alsanius, B.W.

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PLoS one. Online journal 12 (2017), No.12, Art. e0189862, 24 pp.
http://www.pubmedcentral.nih.gov/tocrender.fcgi?action=archive&journal=440
ISSN: 1932-6203
English
Journal Article, Electronic Publication
Fraunhofer IME ()

Abstract
Despite the overruling impact of light in the phyllosphere, little is known regarding the influence of light spectra on non-phototrophic bacteria colonizing the leaf surface. We developed an in vitro method to study phenotypic profile responses of bacterial pure cultures to different bands of the visible light spectrum using monochromatic (blue: 460 nm; red: 660 nm) and polychromatic (white: 350–990 nm) LEDs, by modification and optimization of a protocol for the Phenotype MicroArray™ technique (Biolog Inc., CA, USA). The new protocol revealed high reproducibility of substrate utilization under all conditions tested. Challenging the non-phototrophic bacterium Pseudomonas sp. DR 5–09 with white, blue, and red light demonstrated that all light treatments affected the respiratory profile differently, with blue LED having the most decisive impact on substrate utilization by impairing respiration of 140 substrates. The respiratory activity was decreased on 23 and 42 substrates under red and white LEDs, respectively, while utilization of one, 16, and 20 substrates increased in the presence of red, blue, and white LEDs, respectively. Interestingly, on four substrates contrasting utilization patterns were found when the bacterium was exposed to different light spectra. Although non-phototrophic bacteria do not rely directly on light as an energy source, Pseudomonas sp. DR 5–09 changed its respiratory activity on various substrates differently when exposed to different lights. Thus, ability to sense and distinguish between different wavelengths even within the visible light spectrum must exist, and leads to differential regulation of substrate usage. With these results, we hypothesize that different light spectra might be a hitherto neglected key stimulus for changes in microbial lifestyle and habits of substrate usage by non-phototrophic phyllospheric microbiota, and thus might essentially stratify leaf microbiota composition and diversity.

: http://publica.fraunhofer.de/documents/N-502972.html