Takanori Tanino scite author profile

To allow the comprehensive assessments of yeast expression systems, a simple and immediate method for simultaneously evaluating the expression level and plasmid maintenance in yeast was demonstrated. This method uses green fluorescent protein (GFP) and flow cytometry (FCM) and is characterized by a dual analysis of the average intensity of GFP fluorescence and the population of GFP-expressing cells. The FCM analysis of GFP fluorescence intensity rapidly quantifies the expression level without complex manipulations, such as the enzymatic reaction of a lacZ reporter assay. Moreover, the single-cell analysis revealed that the proportion of cells expressing GFP in the cell cluster reflects the plasmid retention rate; therefore, the FCM analysis of the GFP-expressing population allows the immediate estimation of the plasmid retention rate without the 2- or 3-day incubation required for colony counting. We show that the FCM analysis with GFP reporter is a suitable method to explore the hopeful expression vector and host strain or establish the several expression systems exhibiting the characteristic properties in yeast.

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Improvement of ethanol productivity during xylose and glucose co-fermentation by xylose-assimilating S. cerevisiae via expression of glucose transporter Sut1

Katahira

Ito

Takema

et al. 2008

Enzyme and Microbial Technology

114

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Display of active enzymes on the cell surface of Escherichia coli using PgsA anchor protein and their application to bioconversion

Narita

Okano

Tateno

et al. 2005

Appl Microbiol Biotechnol

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We have developed a novel Escherichia coli cell surface display system by employing PgsA as an anchoring motif. In our display system, C-terminal fusion to PgsA anchor protein from Bacillus subtilis was used. The enzymes selected for display were alpha-amylase (AmyA) from Streptococcus bovis 148 and lipase B (CALB) from Candida antarctica. The molecular mass values of AmyA and CALB are approximately 77 and 34 kDa, respectively. The enzymes were displayed on the surface as a fusion protein with a FLAG peptide tag at the C terminus. Both the PgsA-AmyA-FLAG and PgsA-CALB-FLAG fusion proteins were shown to be displayed by immunofluorescence labeling using anti-FLAG antibody. The displayed enzymes were active forms, and AmyA and CALB activities reached 990 U/g (dry cell weight) and 4.6 U/g (dry cell weight), respectively. AmyA-displaying E. coli cells grew utilizing cornstarch as the sole carbon source, while CALB-displaying E. coli cells catalyzed enantioselective transesterification, indicating that they are effective whole-cell biocatalysts. Since a target enzyme with a size of 77 kDa and an industrially useful lipase have been successfully displayed on the cell surface of E. coli for the first time, PgsA protein is probably a useful anchoring motif to display various enzymes.

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Construction of a Pichia pastoris Cell-Surface Display System Using Flo1p Anchor System

2006

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A Pichia pastoris cell-surface display system was constructed using a Flo1p anchor system, which was developed in Saccharomyces cerevisiae. The lipase from Rhizopus oryzae with a pro sequence (ProROL) was used as the model protein and was genetically fused to the anchor consisting of amino acids 1-1099 of Flo1p (FS anchor). The resulting fusion protein FSProROL was expressed under the control of the alcohol oxidase 1 promoter (pAOX1). The fluorescence microscopy of immunolabeled P. pastoris cells revealed that ProROL was displayed on the cell surface, and Western blot analysis revealed that the fusion protein FSProROL was noncovalently attached to the cell wall and highly glycosylated. The lipase activity of P. pastoris cells was affected by the methanol concentration for the induction phase. Surprisingly, the activity of lipase displayed on the cells incubated at 60 degrees C was not only stable but also increased to about 6.5 times the initial value after 4 h incubation.

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Production of biodiesel fuel from soybean oil catalyzed by fungus whole-cell biocatalysts in ionic liquids

Arai

Nakashima

Tanino

et al. 2010

Enzyme and Microbial Technology

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Takanori Tanino

A Simple and Immediate Method for Simultaneously Evaluating Expression Level and Plasmid Maintenance in Yeast

Improvement of ethanol productivity during xylose and glucose co-fermentation by xylose-assimilating S. cerevisiae via expression of glucose transporter Sut1

Display of active enzymes on the cell surface of Escherichia coli using PgsA anchor protein and their application to bioconversion

Construction of a Pichia pastoris Cell-Surface Display System Using Flo1p Anchor System

Production of biodiesel fuel from soybean oil catalyzed by fungus whole-cell biocatalysts in ionic liquids

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