从酿酒厂废水和糖蜜中生物勘探耐热酵母，以生产高温乙醇。

Bioprospecting thermotolerant yeasts from distillery effluent and molasses for high-temperature ethanol production.

机构信息

Biodiversity and Palaeobiology Group, National Fungal Culture Collection of India (NFCCI), MACS-Agharkar Research Institute, Pune, India.

Savitribai Phule Pune University, Ganeshkhind, Pune, India.

出版信息

J Appl Microbiol. 2022 Feb;132(2):1134-1151. doi: 10.1111/jam.15288. Epub 2021 Sep 15.

DOI:10.1111/jam.15288

PMID:34487585

Abstract

AIMS

Isolation, characterization and assessment of inhibitor tolerance of thermotolerant yeasts associated with distillery effluent and molasses, and their use in high-temperature ethanol production from alkali-treated rice straw.

METHODS AND RESULTS

A total of 92 thermotolerant yeasts were isolated from seven different distillery effluent and molasses samples. Based on MSP-PCR, 34 yeasts were selected and identified by sequencing the D1/D2 domain of LSU rDNA. These yeasts belonged to eight genera and nine different species. We assessed the inhibitor tolerance of these 34 well-characterized yeasts against various pre-treatment-generated inhibitors (furfural, 5-hydroxymethyl furfural and acetic acid) and also evaluated their ethanol yields at 40, 45 and 50℃. Among selected strains, Pichia kudriavzevii DSA3.2 exhibited the highest ethanol production (24.5 g l ) with an efficiency of 95.7% at 40℃ using 5% glucose. At 45℃, P. kudriavzevii DSA3.2 and Kluyveromyces marxianus MSS6.3 yielded maximum ethanol titres; 22.3 and 23 g l with 87.4% and 90% efficiency, respectively. While using alkali-treated RS at 45℃, K. marxianus MSS6.3 produced 10.5 g l of ethanol with 84.5% fermentation efficiency via separate hydrolysis and fermentation, and 10.9 g l of ethanol with 85% efficiency via simultaneous saccharification and fermentation. Pichia kudriavzevii DSA3.2, DSA3.1 and K. marxianus MSS6.3 also exhibited significant tolerance against multiple inhibitors.

CONCLUSIONS

Yeast isolates P. kudriavzevii DSA3.2 and K. marxianus MSS6.3 exhibited significant inhibitor tolerance and proved to be suitable for high-temperature ethanol fermentation. After additional optimization and scale-up experiments, these isolates can be exemplary candidates for industrial-scale ethanol production from lignocellulosic biomass.

SIGNIFICANCE AND IMPACT OF THE STUDY

Our study recognizes distillery effluents and molasses as specialized niches for yeasts with a broad substrate range, capable of tolerating multiple inhibitors and yielding high levels of ethanol at elevated temperatures. These yeasts can further be exploited for bioethanol production through SSF/SHF at a larger scale.

摘要

目的

从与酿酒厂废水和糖蜜相关的耐热酵母中分离、鉴定和评估其对抑制剂的耐受性，并将其用于经碱处理的稻草在高温下进行乙醇生产。

方法和结果

从七个不同的酿酒厂废水和糖蜜样品中总共分离出 92 株耐热酵母。基于 MSP-PCR，通过测序 LSU rDNA 的 D1/D2 结构域，选择并鉴定了 34 株酵母。这些酵母属于 8 个属和 9 个不同的种。我们评估了这 34 株特性明确的酵母对各种预处理生成的抑制剂（糠醛、5-羟甲基糠醛和乙酸）的抑制剂耐受性，并评估了它们在 40、45 和 50℃下的乙醇产量。在所选择的菌株中，毕赤酵母 DSA3.2 表现出最高的乙醇产量（24.5 g/L），在 40℃下使用 5%葡萄糖时效率为 95.7%。在 45℃下，马克斯克鲁维酵母 MSS6.3 和毕赤酵母 DSA3.2 产生的乙醇最高浓度分别为 22.3 和 23 g/L，效率分别为 87.4%和 90%。在 45℃下使用经碱处理的 RS 时，马克斯克鲁维酵母 MSS6.3 通过分步水解发酵产生 10.5 g/L 的乙醇，发酵效率为 84.5%，通过同步糖化发酵产生 10.9 g/L 的乙醇，效率为 85%。毕赤酵母 DSA3.2、DSA3.1 和马克斯克鲁维酵母 MSS6.3 也表现出对多种抑制剂的显著耐受性。

结论

酵母分离株毕赤酵母 DSA3.2 和马克斯克鲁维酵母 MSS6.3 表现出显著的抑制剂耐受性，证明它们适合高温乙醇发酵。经过进一步的优化和扩大规模实验，这些分离株可以成为从木质纤维素生物质进行工业规模乙醇生产的理想候选株。

研究的意义和影响

我们的研究认识到酿酒厂废水和糖蜜是具有广泛底物范围的酵母的特殊小生境，这些酵母能够耐受多种抑制剂，并在高温下产生高水平的乙醇。这些酵母可以通过 SSF/SHF 在更大的规模上进一步用于生物乙醇生产。

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从酿酒厂废水和糖蜜中生物勘探耐热酵母，以生产高温乙醇。

Bioprospecting thermotolerant yeasts from distillery effluent and molasses for high-temperature ethanol production.

机构信息

出版信息

AIMS

METHODS AND RESULTS

CONCLUSIONS

SIGNIFICANCE AND IMPACT OF THE STUDY

目的

方法和结果

结论

研究的意义和影响

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