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1.
Molecules ; 28(11)2023 May 25.
Artículo en Inglés | MEDLINE | ID: mdl-37298800

RESUMEN

Chitosan is a natural polysaccharide which has been authorized for oenological practices for the treatment of musts and wines. This authorization is limited to chitosan of fungal origin while that of crustacean origin is prohibited. To guarantee its origin, a method based on the measurement of the stable isotope ratios (SIR) of carbon δ13C, nitrogen δ15N, oxygen δ18O and hydrogen δ2H of chitosan has been recently proposed without indicating the threshold authenticity limits of these parameters which, for the first time, were estimated in this paper. In addition, on part of the samples analysed through SIR, Fourier transform infrared spectrometry (FTIR) and thermogravimetric analysis (TGA) were performed as simple and rapid discrimination methods due to limited technological resources. Samples having δ13C values above -14.2‱ and below -125.1‱ can be considered as authentic fungal chitosan without needing to analyse other parameters. If the δ13C value falls between -25.1‱ and -24.9‱, it is necessary to proceed further with the evaluation of the parameter δ15N, which must be above +2.7‱. Samples having δ18O values lower than +25.3‱ can be considered as authentic fungal chitosan. The combination of maximum degradation temperatures (obtained using TGA) and peak areas of Amide I and NH2/Amide II (obtained using FTIR) also allows the discrimination between the two origins of the polysaccharide. Hierarchical cluster analysis (HCA) and principal component analysis (PCA) based on TGA, FTIR and SIR data successfully distributed the tested samples into informative clusters. Therefore, we present the technologies described as part of a robust analytical strategy for the correct identification of chitosan samples from crustaceans or fungi.


Asunto(s)
Quitosano , Isótopos de Carbono/análisis , Análisis de Fourier , Tecnología , Análisis Espectral
2.
Molecules ; 27(19)2022 Oct 07.
Artículo en Inglés | MEDLINE | ID: mdl-36235207

RESUMEN

Plant protection is mainly based on the application of synthetic pesticides to limit yield losses resulting from diseases. However, the use of more eco-friendly strategies for sustainable plant protection has become a necessity that could contribute to controlling pathogens through a direct antimicrobial effect and/or an induction of plant resistance. Three different families of natural or bioinspired compounds originated from bacterial or fungal strains have been evaluated to protect wheat against powdery mildew, caused by the biotrophic Blumeria graminis f.sp. tritici (Bgt). Thus, three bio-inspired mono-rhamnolipids (smRLs), three cyclic lipopeptides (CLPs, mycosubtilin (M), fengycin (F), surfactin (S)) applied individually and in mixtures (M + F and M + F + S), as well as a chitosan oligosaccharide (COS) BioA187 were tested against Bgt, in planta and in vitro. Only the three smRLs (Rh-Eth-C12, Rh-Est-C12 and Rh-Succ-C12), the two CLP mixtures and the BioA187 led to a partial protection of wheat against Bgt. The higher inhibitor effects on the germination of Bgt spores in vitro were observed from smRLs Rh-Eth-C12 and Rh-Succ-C12, mycosubtilin and the two CLP mixtures. Taking together, these results revealed that such molecules could constitute promising tools for a more eco-friendly agriculture.


Asunto(s)
Antiinfecciosos , Ascomicetos , Quitosano , Plaguicidas , Antiinfecciosos/farmacología , Quitosano/farmacología , Resistencia a la Enfermedad , Lipopéptidos/farmacología , Oligosacáridos/farmacología , Péptidos Cíclicos/farmacología , Plaguicidas/farmacología , Enfermedades de las Plantas/microbiología , Enfermedades de las Plantas/prevención & control , Esporas Fúngicas , Triticum/microbiología
3.
N Biotechnol ; 33(1): 231-6, 2016 Jan 25.
Artículo en Inglés | MEDLINE | ID: mdl-26141376

RESUMEN

In the context of increasing volatility of oil prices, replacement of petroleum based plastics by bioplastics is a topic of increasing interest. Poly(hydroxyalkanoate)s (PHAs) are among the most promising families in this field. Controlling composition of the polymer on the monomeric level remains a pivotal issue. This control is even more difficult to achieve when the polymer is not synthesized by chemists, but produced by nature, in this case, bacteria. In this study mechanism and role of two 3-hydroxyvalerate (3-HV) inducing substrates on the production of PHBV with high, 80%, 3-HV content were evaluated. It was found that levulinic acid contributes to biomass and bio-polymer content enhancement, whereas sodium propionate mainly contributes to 3-HV enhancement. Optimized proportions of feeding substrates at 1 g/L and 2.5 g/L, respectively for levulinic acid and sodium propionate allowed a 100% productivity enhancement, at 3.9 mg/L/hour, for the production of PHBV with 80% 3-HV.


Asunto(s)
Cupriavidus necator/metabolismo , Ácidos Levulínicos/farmacología , Poliésteres/metabolismo , Propionatos/farmacología , Biomasa , Cupriavidus necator/efectos de los fármacos , Cinética , Especificidad por Sustrato/efectos de los fármacos , Factores de Tiempo
4.
N Biotechnol ; 32(1): 47-53, 2015 Jan 25.
Artículo en Inglés | MEDLINE | ID: mdl-25252021

RESUMEN

Organic pollution by aromatic compounds is of increasing concern to our environment. Therefore, the transformation of aromatic pollutants into valuable aliphatic and biodegradable bioplastics was studied. Since benzoic acid was found to be the key compound for such bioremediation processes, its transformation, and metabolic pathways of digestion, by Cupriavidus necator were specifically analysed. It was found that the degradation of aromatic compounds follows the 2,3-dioxygenase pathway in this strain and that the batch transformations of benzoic acid with either fresh or adapted cells were limited to an initial concentration of 2.5 g/L of pollutant. The repeated fed-batch with partial withdrawal process, however, showed a 17.5-fold improvement, thus allowing the transformation of a total of 43.7 g/L in 12 weeks.


Asunto(s)
Cupriavidus necator/metabolismo , Contaminantes Ambientales/metabolismo , Hidrocarburos Aromáticos/metabolismo , Plásticos/metabolismo , Técnicas de Cultivo Celular por Lotes , Biodegradación Ambiental , Biomasa , Biotransformación , Contaminantes Ambientales/química , Fermentación , Hidrocarburos Aromáticos/química , Redes y Vías Metabólicas , Factores de Tiempo
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