Biohydrogen production by Thermoanaerobacterium thermosaccharolyticum KKU-ED1: Culture conditions optimization using mixed xylose/arabinose as substrate
Document title: Biohydrogen production by Thermoanaerobacterium thermosaccharolyticum KKU-ED1: Culture conditions optimization using mixed xylose/arabinose as substrate
Journal: Electronic journal of biotechnology
Database: PERIÓDICA
System number: 000357882
ISSN: 0717-3458
Authors: 1
2
Institutions: 1Thepsatri Rajabhat University, Faculty of Science and Technology, Lopburi. Tailandia
2Khon Kaen University, Faculty of Technology, Khon Kaen. Tailandia
Year:
Volumen: 16
Number: 1
Country: Chile
Language: Inglés
Document type: Artículo
Approach: Experimental, aplicado
English abstract Background: Biological hydrogen production by microorganisms can be divided into two main categories i.e. photosynthetic organisms that produce hydrogen using light as energy source and anaerobic bacteria that produce hydrogen via dark fermentation. Dark fermentative hydrogen production by anaerobic bacteria has the advantages of a higher HPR without illumination and of the capability to convert various kinds of substrate. Results: Thermophilic hydrogen producer was isolated from elephant dung and identified as Thermoanaerobacterium thermosaccharolyticum KKU-ED1 by 16S rRNA gene analysis, which was further used to produce hydrogen from mixed pentose sugar i.e., xylose/arabinose. The optimum conditions for hydrogen production from mixed xylose/arabinose by KKU-ED1 were a 1:1 xylose/arabinose mixture at the total concentration of 5 g/L, initial pH of 6.5 and temperature of 55ºC. Under the optimum conditions, hydrogen from sugar derived from acid-hydrolyzed sugarcane bagasse at a reducing sugar concentration were achieved. Soluble metabolite product (SMP) was predominantly acetic acid indicating the acetate-type fermentation. Conclusions: The strain KKU-ED1 appeared to be a suitable candidate for thermophilic fermentative hydrogen production from hemicellulosic fraction of lignocellulosic materials due to its ability to use various types of carbon sources
Disciplines: Biología,
Química
Keyword: Biotecnología,
Fermentación,
Biohidrógeno,
Arabinosa,
Xilosa,
Hidrolizados,
Thermoanaerobacterium thermosaccharolyticum
Keyword: Biology,
Chemistry,
Fermentation,
Biotechnology,
Biohydrogen,
Arabinose,
Xylose,
Hydrolysates,
Thermoanaerobacterium thermosaccharolyticum
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