At 48 SC

At 48 find more h all cells have recovered the typical morphology of ALG-00-530 cells in the exponential phase and resemble that observed in Figure 1 (G). Morphological changes between cells cultured in MS, MS-10, MS-T, and MS-Y were not different. Interestingly, and at 36 h, we observed the appearance on coiled cells in MS-10

broth (Figure 7F) suggesting that those cells had utilized all available nutrients and were entering the starvation phase. Figure 7 Morphology changes of Flavobacterium columnare starved cells during revival in different nutrient media. Panels A and B, cells cultured in Modified Sheih (MS) medium at 4 h post-inoculation (arrows point to small membrane vesicles). Panel C, a cell cultured in diluted MS (MS-10) at 4 h post-inoculation (arrow indicates fimbriae). Panel D, active cells division observed in MS-10 cultures at 12 h post-inoculation. BMS202 mouse Panel E, cells actively growing in MS at 36 h post-inoculation displaying membrane vesicles (arrow). Panel F, coiled forms (arrow) observed in MS-10 cultures at 36 h post-inoculation. Scale bars represent 1 μm. Discussion It is widely accepted that most bacteria encounter low nutrient conditions during their life cycles and that adaptation strategies must be in place

to survive those adverse conditions. Starvation-induced activities include differentiation into resistant forms that maintain viability in absence of nutrients [21]. Some of the resistant forms that bacteria can differentiate into include spores, ultramicrobacteria and viable but not culturable (VBNC) cells Resminostat [22]. A common denominator in bacteria subjected to starvation is the ‘rounding up’ phenomenon by which cells

become rounder, adopting a coccus shape morphology [22]. In addition, starved cells tend to show a reduction in size and therefore an increase in their surface-to-volume ratio, which may facilitate the uptake of substrates from a nutrient-poor environment. Our study showed that F. columnare develops a very unique cell configuration when subjected to starvation characterized by ring or coiled forms that, overtime, developed an envelope layer. Cells maintained their length but their overall shape changed from long and thin bacilli to round forms by curving over themselves. The strategy adopted by F. columnare did not increase the surface-to-volume ratio of the cell but reduced the surface exposed to the elements. The secretion of amorphous extracellular polysaccharides have been described in other Gram negative bacteria and data suggest they conferred protection against osmotic and oxidative stresses during starvation [22]. If the matrix that was observed around the F. columnare starved cells in the later stages was indeed secreted to provide protection against starvation or unfavorable selleck screening library environments then, the phenomenon of ‘coiling’ could be considered a starvation-induced activity since it would allow the cells to save energy by producing less of the protective envelope to cover themselves.

Comments are closed.