Qin Xiang-Xiang scite author profile

Qin Xiang-Xiang

2Publications

11Citation Statements Received

26Citation Statements Given

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Affiliations

Guangxi Institute of Botany, Chinese Academy of Sciences

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Novel Isolates for Biological Detoxification of Lignocellulosic Hydrolysate

Hou-rui

Xiang-Xiang

Silva

et al. 2008

Appl Biochem Biotechnol

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In this paper, two new strians, Issatchenkia occidentalis (Lj-3, CCTCC M 2006097) and Issatchenkia orienalis (S-7, CCTCC M 2006098), isolated from different environments on solid media, were used in the detoxification process of the hemicellulosic hydrolysate of sugarcane bagasse. High-pressure liquid chromatography elution curve of UV-absorption compounds represented by acetic acid, furfural, and guaiacol (toxic compounds found in the hemicellulosic hydrolysate) showed that several chromatographic peaks were evidently diminished for the case of detoxified hydrolysate with isolate strains compared to the high peaks resulted for no detoxified hydrolysate. It was clear that these inhibitors were degraded by the two new isolates during their cultivation process. Fermentation results for the biodetoxified hydrolysate showed an increase in xylitol productivity (Q (p)) by 1.97 and 1.95 times (2.03 and 2.01 g l(-1) h(-1)) and in xylitol yield (Y (p)) by 1.72 and 1.65 times (0.93 and 0.89 g xylitol per gram xylose) for hydrolysate treated with S-7 and Lj-3, respectively, in comparison with no detoxified hydrolysate (1.03 g l(-1) h(-1) and 0.54 g xylitol per gram xylose). This present work demonstrated the importance of Issatchenkia yeast in providing an effective biological detoxification approach to remove inhibitors and improve hydrolysate fermentability, leading to a high xylitol productivity and yield.

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Synthesis and nondestructive detailed structure characterization of carboxymethyl xylan from bagasse

Wang

Xiang-Xiang

Miao

et al. 2020

Journal of Carbohydrate Chemistry

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Qin Xiang-Xiang

Novel Isolates for Biological Detoxification of Lignocellulosic Hydrolysate

Synthesis and nondestructive detailed structure characterization of carboxymethyl xylan from bagasse

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