A site-directed integration system for the nonuniversal CUGSer codon usage species Pichia farinosa by electroporation

Halotolerant yeast, Pichia farinosa, is a valuable yeast strain in fermentation industry because it produces high yield of glycerol and xylitol, and can tolerate both contamination and high-density growth during fermentation. However, the lack of genetic manipulation tools makes it less popular as a...

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Veröffentlicht in:	Archives of microbiology 2006-02, Vol.184 (6), p.419-424
Hauptverfasser:	XIAOXING WANG, LI, Gang, YUNTAO DENG, XUANWEI YU, FANG CHEN
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Sprache:	eng
Schlagworte:	Bacteria Biological and medical sciences Fermentation Fundamental and applied biological sciences. Psychology Genetic engineering Microbiology Miscellaneous Mycology Yeast Yeasts
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container_end_page	424
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container_title	Archives of microbiology
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creator	XIAOXING WANG LI, Gang YUNTAO DENG XUANWEI YU FANG CHEN
description	Halotolerant yeast, Pichia farinosa, is a valuable yeast strain in fermentation industry because it produces high yield of glycerol and xylitol, and can tolerate both contamination and high-density growth during fermentation. However, the lack of genetic manipulation tools makes it less popular as a gene engineering strain. Expression systems commonly used in other yeast systems, such as Saccharomyces cerevisiae and Pichia pastoris cannot be used in P. farinosa because it translates universal Leu codon CUG as Ser. Here we reported a modified expression vector and a transformation system with enhanced efficiency in P. farinosa. The results showed that cells of OD^sub 600^0.8-1.0 with DTT treatment can obtain high transformation efficiency. The optimized electroporation condition was 900 V, 25 μF, and 200 Ω. The DNA concentration did not influence the transformation. Our system provides the potential not only for applying P. farinosa as an industrial strain of gene engineering, but also for studying gene function in its native host.[PUBLICATION ABSTRACT]
doi_str_mv	10.1007/s00203-005-0062-8
format	Article
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subjects	Bacteria Biological and medical sciences Fermentation Fundamental and applied biological sciences. Psychology Genetic engineering Microbiology Miscellaneous Mycology Yeast Yeasts
title	A site-directed integration system for the nonuniversal CUGSer codon usage species Pichia farinosa by electroporation
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