Shuo Yao scite author profile

Lignocellulosic biomass contains a variety of carbohydrates, and their conversion into ethanol by fermentation requires an efficient microbial platform to achieve high yield, productivity, and final titer of ethanol. In recent years, growing attention has been devoted to the development of cellulolytic and saccharolytic thermophilic bacteria for lignocellulosic ethanol production because of their unique properties. First of all, thermophilic bacteria possess unique cellulolytic and hemicellulolytic systems and are considered as potential sources of highly active and thermostable enzymes for efficient biomass hydrolysis. Secondly, thermophilic bacteria ferment a broad range of carbohydrates into ethanol, and some of them display potential for ethanologenic fermentation at high yield. Thirdly, the establishment of the genetic tools for thermophilic bacteria has allowed metabolic engineering, in particular with emphasis on improving ethanol yield, and this facilitates their employment for ethanol production. Finally, different processes for second-generation ethanol production based on thermophilic bacteria have been proposed with the aim to achieve cost-competitive processes. However, thermophilic bacteria exhibit an inherent low tolerance to ethanol and inhibitors in the pretreated biomass, and this is at present the greatest barrier to their industrial application. Further improvement of the properties of thermophilic bacteria, together with the optimization production processes, is equally important for achieving a realistic industrial ethanol production.

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LncRNA OIP5-AS1 regulates radioresistance by targeting DYRK1A through miR-369-3p in colorectal cancer cells

Zou

Yao

Chen

et al. 2018

European Journal of Cell Biology

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An ultrastable Zr-MOF for fast capture and highly luminescence detection of Cr₂O₇²⁻ simultaneously in an aqueous phase

et al. 2018

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Heterotrophic nitrification and aerobic denitrification at low temperature by a newly isolated bacterium, Acinetobacter sp. HA2

Yao

et al. 2013

Bioresource Technology

250

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Microalgae-bacteria symbiosis in microalgal growth and biofuel production: a review

et al. 2018

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Photosynthetic microalgae can capture solar energy and convert it to bioenergy and biochemical products. In nature or industrial processes, microalgae live together with bacterial communities and may maintain symbiotic relationships. In general interactions, microalgae exude dissolved organic carbon that becomes available to bacteria. In return, the bacteria remineralize sulphur, nitrogen and phosphorous to support the further growth of microalgae. In specific interactions, heterotrophic bacteria supply B vitamins as organic cofactors or produce siderophores to bind iron, which could be utilized by microalgae, while the algae supply fixed carbon to the bacteria in return. In this review, we focus on mutualistic relationship between microalgae and bacteria, summarizing recent studies on the mechanisms involved in microalgae-bacteria symbiosis. Symbiotic bacteria on promoting microalgal growth are described and the relevance of microalgae-bacteria interactions for biofuel production processes is discussed. Symbiotic microalgae-bacteria consortia could be utilized to improve microalgal biomass production and to enrich the biomass with valuable chemical and energy compounds. The suitable control of such biological interactions between microalgae and bacteria will help to improve the microalgae-based biomass and biofuel production in the future.

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High performance gas adsorption and separation of natural gas in two microporous metal–organic frameworks with ternary building units

et al. 2014

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A polyhedral metal–organic framework based on the supermolecular building block strategy exhibiting high performance for carbon dioxide capture and separation of light hydrocarbons

et al. 2015

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Electrode materials for vanadium redox flow batteries: Intrinsic treatment and introducing catalyst

Zhang

et al. 2022

Chemical Engineering Journal

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Shuo Yao

Thermophilic, lignocellulolytic bacteria for ethanol production: current state and perspectives

LncRNA OIP5-AS1 regulates radioresistance by targeting DYRK1A through miR-369-3p in colorectal cancer cells

An ultrastable Zr-MOF for fast capture and highly luminescence detection of Cr₂O₇²⁻ simultaneously in an aqueous phase

Heterotrophic nitrification and aerobic denitrification at low temperature by a newly isolated bacterium, Acinetobacter sp. HA2

Microalgae-bacteria symbiosis in microalgal growth and biofuel production: a review

High performance gas adsorption and separation of natural gas in two microporous metal–organic frameworks with ternary building units

A polyhedral metal–organic framework based on the supermolecular building block strategy exhibiting high performance for carbon dioxide capture and separation of light hydrocarbons

Electrode materials for vanadium redox flow batteries: Intrinsic treatment and introducing catalyst

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Product

Resources

About

Shuo Yao

Thermophilic, lignocellulolytic bacteria for ethanol production: current state and perspectives

LncRNA OIP5-AS1 regulates radioresistance by targeting DYRK1A through miR-369-3p in colorectal cancer cells

An ultrastable Zr-MOF for fast capture and highly luminescence detection of Cr2O72− simultaneously in an aqueous phase

Heterotrophic nitrification and aerobic denitrification at low temperature by a newly isolated bacterium, Acinetobacter sp. HA2

Microalgae-bacteria symbiosis in microalgal growth and biofuel production: a review

High performance gas adsorption and separation of natural gas in two microporous metal–organic frameworks with ternary building units

A polyhedral metal–organic framework based on the supermolecular building block strategy exhibiting high performance for carbon dioxide capture and separation of light hydrocarbons

Electrode materials for vanadium redox flow batteries: Intrinsic treatment and introducing catalyst

Contact Info

Product

Resources

About

An ultrastable Zr-MOF for fast capture and highly luminescence detection of Cr₂O₇²⁻ simultaneously in an aqueous phase