Notable mixed substrate fermentation by native Kodamaea ohmeri strains isolated from Lagenaria siceraria flowers and ethanol production on paddy straw hydrolysates.

Q1 Chemistry

Chemistry Central Journal Pub Date : 2018-02-05 DOI:10.1186/s13065-018-0375-8

Shalley Sharma, Anju Arora, Pankhuri Sharma, Surender Singh, Lata Nain, Debarati Paul

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引用次数: 13

Abstract

Background: Bioethanol obtained by fermenting cellulosic fraction of biomass holds promise for blending in petroleum. Cellulose hydrolysis yields glucose while hemicellulose hydrolysis predominantly yields xylose. Economic feasibility of bioethanol depends on complete utilization of biomass carbohydrates and an efficient co-fermenting organism is a prerequisite. While hexose fermentation capability of Saccharomyces cerevisiae is a boon, however, its inability to ferment pentose is a setback.

Results: Two xylose fermenting Kodamaea ohmeri strains were isolated from Lagenaria siceraria flowers through enrichment on xylose. They showed 61% glucose fermentation efficiency in fortified medium. Medium engineering with 0.1% yeast extract and peptone, stimulated co-fermentation potential of both strains yielding maximum ethanol 0.25 g g^-1 on mixed sugars with ~ 50% fermentation efficiency. Strains were tolerant to inhibitors like 5-hydroxymethyl furfural, furfural and acetic acid. Both K. ohmeri strains grew well on biologically pretreated rice straw hydrolysates and produced ethanol.

Conclusions: This is the first report of native Kodamaea sp. exhibiting notable mixed substrate utilization and ethanol fermentation. K. ohmeri strains showed relevant traits like utilizing and co-fermenting mixed sugars, exhibiting excellent growth, inhibitor tolerance, and ethanol production on rice straw hydrolysates.

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从银根草花中分离出的奥梅里小檗属(Kodamaea ohmeri)菌株的混合底物发酵和水稻秸秆水解物的乙醇生产。

背景:通过发酵生物质的纤维素组分获得的生物乙醇有望与石油混合。纤维素水解产生葡萄糖，而半纤维素水解主要产生木糖。生物乙醇的经济可行性取决于生物质碳水化合物的完全利用，有效的共发酵生物是先决条件。虽然酿酒酵母发酵己糖的能力是一个福音，然而，它不能发酵戊糖是一个挫折。结果:通过对木糖的富集，从木糖Lagenaria siceraria花中分离到两株木糖发酵的Kodamaea ohmeri菌株。它们在强化培养基中葡萄糖发酵效率为61%。培养基中添加0.1%的酵母膏和蛋白胨，可刺激两株菌株在混合糖上的共发酵潜力，最大乙醇产量为0.25 g g-1，发酵效率为~ 50%。菌株对5-羟甲基糠醛、糠醛和乙酸等抑制剂具有耐受性。这两种菌株在生物预处理的稻秆水解物上生长良好，并产生乙醇。结论:本研究首次报道了天然小檗属植物具有明显的混合底物利用和乙醇发酵。菌株表现出利用和共发酵混合糖的相关性状，表现出良好的生长、抑制剂耐受性和对水稻秸秆水解物的乙醇生产能力。

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来源期刊

Chemistry Central Journal 化学-化学综合

CiteScore

4.40

自引率

0.00%

发文量

审稿时长

3.5 months

期刊介绍： BMC Chemistry is an open access, peer reviewed journal that considers all articles in the broad field of chemistry, including research on fundamental concepts, new developments and the application of chemical sciences to broad range of research fields, industry, and other disciplines. It provides an inclusive platform for the dissemination and discussion of chemistry to aid the advancement of all areas of research. Sections: -Analytical Chemistry -Organic Chemistry -Environmental and Energy Chemistry -Agricultural and Food Chemistry -Inorganic Chemistry -Medicinal Chemistry -Physical Chemistry -Materials and Macromolecular Chemistry -Green and Sustainable Chemistry