Shigeki Sawayama scite author profile

Bioethanol production from xylose is important for utilization of lignocellulosic biomass as raw materials. The research on yeast conversion of xylose to ethanol has been intensively studied especially for genetically engineered Saccharomyces cerevisiae during the last 20 years. S. cerevisiae, which is a very safe microorganism that plays a traditional and major role in industrial bioethanol production, has several advantages due to its high ethanol productivity, as well as its high ethanol and inhibitor tolerance. However, this yeast cannot ferment xylose, which is the dominant pentose sugar in hydrolysates of lignocellulosic biomass. A number of different strategies have been applied to engineer yeasts capable of efficiently producing ethanol from xylose, including the introduction of initial xylose metabolism and xylose transport, changing the intracellular redox balance, and overexpression of xylulokinase and pentose phosphate pathways. In this review, recent progress with regard to these studies is discussed, focusing particularly on xylose-fermenting strains of S. cerevisiae. Recent studies using several promising approaches such as host strain selection and adaptation to obtain further improved xylose-utilizing S. cerevisiae are also addressed.

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Recovery of liquid fuel from hydrocarbon-rich microalgae by thermochemical liquefaction

Dote

Sawayama

Inoue

et al. 1994

Fuel

311

138

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Wet disk milling pretreatment without sulfuric acid for enzymatic hydrolysis of rice straw

Hideno

Inoue

Tsukahara

et al. 2009

Bioresource Technology

230

102

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Possibility of renewable energy production and CO2 mitigation by thermochemical liquefaction of microalgae

Sawayama

Minowa

Yokoyama

1999

Biomass and Bioenergy

184

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Combining hot-compressed water and ball milling pretreatments to improve the efficiency of the enzymatic hydrolysis of eucalyptus

Inoue

Yano

Endo

et al. 2008

Biotechnol Biofuels

166

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Background: Lignocellulosic biomass such as wood is an attractive material for fuel ethanol production. Pretreatment technologies that increase the digestibility of cellulose and hemicellulose in the lignocellulosic biomass have a major influence on the cost of the subsequent enzymatic hydrolysis and ethanol fermentation processes. Pretreatments without chemicals such as acids, bases or organic solvents are less effective for an enzymatic hydrolysis process than those with chemicals, but they have a less negative effect on the environment.

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