Screening and Engineering Yeast Transporters to Improve Cellobiose Fermentation by Recombinant Saccharomyces cerevisiae
status: published
status: published
status: published
Developing a promising fermentation strategy with high cellulase yield and stable fermenting performance is an imperative way to overcome the cellulase costs limitation. In this study, a novel solid-state fermentation (SSF) strategy using polyurethane carbon foams (PAF) as inert carriers was developed to improve cellulase production by Trichoderma ...
Developing a promising fermentation strategy with high cellulase yield and stable fermenting performance is an imperative way to overcome the cellulase costs limitation. In this study, a novel solid-state fermentation (SSF) strategy using polyurethane carbon foams (PAF) as inert carriers was developed to improve cellulase production by Trichoderma ...
Complete aqueous dissolution of starch requires the use of temperatures exceeding 100 °C. During and after cooling of the resultant aqueous solutions, starch polymers precipitate by aggregation and crystallization. Low-temperature gelatinization and dissolution of maize starch (MS) is induced, and the stability of the resultant solutions is enhance...
Alkaline pretreatment is a simple and effective method for removing lignin at low temperatures and normal pressure, but this process consumes large amounts of water and produces wastewater, both of which limit its industrial applications. To develop a process with zero discharge of black liquor and wastewater, in this study, KOH/urea-treated bagass...
Alkaline pretreatment is a simple and effective method for removing lignin at low temperatures and normal pressure, but this process consumes large amounts of water and produces wastewater, both of which limit its industrial applications. To develop a process with zero discharge of black liquor and wastewater, in this study, KOH/urea-treated bagass...
NaOH/urea (NU) pretreatment at lower than 0 degrees C has been frequently applied for improving bio-conversion of lignocellulose, but the wastewater generated from the pretreatment process is hard to dispose. KOH/urea (KU) pretreatment for enhancing bioconversion of lignocellulose has recently attracted researchers' attention due to the recycling o...
NaOH/urea (NU) pretreatment at lower than 0 degrees C has been frequently applied for improving bio-conversion of lignocellulose, but the wastewater generated from the pretreatment process is hard to dispose. KOH/urea (KU) pretreatment for enhancing bioconversion of lignocellulose has recently attracted researchers' attention due to the recycling o...
Alkaline pretreatment can effectively remove lignin and significantly increase enzymatic hydrolysis efficiency of lignocellulosic biomass. Sodium hydroxide (NaOH) is the common alkali for treating lignocellulose. However, a large quantity of liquid waste (LW) generated in the NaOH pretreatment process is hard to be removed. In this context, this wo...