Display of Alpha-amylase on the Surface of Lactobacillus Casei Cells by Use of the PgsA Anchor Protein, and Production of Lactic Acid from Starch

Overview

Journal Appl Environ Microbiol

Specialties Environmental Health
Microbiology

Date 2006 Jan 5

PMID 16391053

Citations 33

Authors

Junya Narita

Kenji Okano

Tomoe Kitao

Saori Ishida

Tomomitsu Sewaki

Moon-Hee Sung

Hideki Fukuda

Akihiko Kondo

Affiliations

Soon will be listed here.

Abstract

We developed a new cell surface engineering system based on the PgsA anchor protein from Bacillus subtilis. In this system, the N terminus of the target protein was fused to the PgsA protein and the resulting fusion protein was expressed on the cell surface. Using this new system, we constructed a novel starch-degrading strain of Lactobacillus casei by genetically displaying alpha-amylase from the Streptococcus bovis strain 148 with a FLAG peptide tag (AmyAF). Localization of the PgsA-AmyA-FLAG fusion protein on the cell surface was confirmed by immunofluorescence microscopy and flow cytometric analysis. The lactic acid bacteria which displayed AmyAF showed significantly elevated hydrolytic activity toward soluble starch. By fermentation using AmyAF-displaying L. casei cells, 50 g/liter of soluble starch was reduced to 13.7 g/liter, and 21.8 g/liter of lactic acid was produced within about 24 h. The yield in terms of grams of lactic acid produced per gram of carbohydrate utilized was 0.60 g per g of carbohydrate consumed at 24 h. Since AmyA was immobilized on the cells, cells were recovered after fermentation and used repeatedly. During repeated utilization of cells, the lactic acid yield was improved to 0.81 g per g of carbohydrate consumed at 72 h. These results indicate that efficient simultaneous saccharification and fermentation from soluble starch to lactic acid were carried out by recombinant L. casei cells with cell surface display of AmyA.

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