| Literature DB >> 26468641 |
Kesavan Devarayan1, Yesupatham Sathishkumar2, Yang Soo Lee2, Byoung-Suhk Kim3.
Abstract
Biocontamination within the international space station is ever increasing mainly due toEntities:
Mesh:
Substances:
Year: 2015 PMID: 26468641 PMCID: PMC4607506 DOI: 10.1371/journal.pone.0139303
Source DB: PubMed Journal: PLoS One ISSN: 1932-6203 Impact factor: 3.240
Fig 1Schematic representation of synthesis of α-aminophosphonate chitosan derivative.
Fig 2FT-IR spectroscopy of Ch and DMAB(P)-Ch.
Fig 331P NMR spectroscopy of DMAB(P)-Ch.
Fig 4UV-Vis spectral data of Ch and DMAB(P)-Ch.
Fig 5A. niger spore germination growth curve (A) normal gravity and (B) microgravity.
Comparative antifungal index for normal gravity A. niger .
| Normal gravity strain | |||||
|---|---|---|---|---|---|
| Day | Control (mm) | 50 μg/mL (mm) | FIE% | 500 μg/mL (mm) | FIE% |
| 2 | 17.0±1.0 | 5.7±0.6 | 65.0±1.7 | 3.7±0.6 | 76.1±2.3 |
| 5 | 31.7±1.5 | 26.0±1.0 | 19.4±1.5 | 20.0±1.0 | 38.0±1.8 |
a) values given are average of three experiments.
b) the size of the fungal colony is indicated in mm.
FIE%—fungal index efficiency%.
Biomass of A. niger after 2 days under normal and microgravity in presence and absence of DMAB-Ch(P) .
| Fresh Weight | |||
| 0 μg/mL of DMAB-Ch(P) | 500 μg/mL of DMAB-Ch(P) | ||
| MG (g) | NG (g) | MG (g) | NG (g) |
| 4.97±0.16 | 4.50±0.05 | 3.05±0.18 | 2.51±0.15 |
| Dry Weight | |||
| 0.25±0.02 | 0.17±0.02 | 0.18±0.01 | 0.15±0.01 |
a) values given are average of three experiments.
MG–Microgravity
NG–Normal gravity
Fig 6UV-visible spectra of secondary metabolites presence in culture extract both in absence and presence of chitosan derivative.
The insets show the color variation of the culture extract by naked-eye.