Masato Furukawa scite author profile

Escherichia albertii is a recently recognized close relative of Escherichia coli. This emerging enteropathogen possesses a type III secretion system (T3SS) encoded by the locus of enterocyte effacement, similar to enteropathogenic and enterohemorrhagic E. coli (EPEC and EHEC). Shiga toxin-producing strains have also been identified. The genomic features of E. albertii, particularly differences from other Escherichia species, have not yet been well clarified. Here, we sequenced the genome of 29 E. albertii strains (3 complete and 26 draft sequences) isolated from multiple sources and performed intraspecies and intragenus genomic comparisons. The sizes of the E. albertii genomes range from 4.5 to 5.1 Mb, smaller than those of E. coli strains. Intraspecies genomic comparisons identified five phylogroups of E. albertii. Intragenus genomic comparison revealed that the possible core genome of E. albertii comprises 3,250 genes, whereas that of the genus Escherichia comprises 1,345 genes. Our analysis further revealed several unique or notable genetic features of E. albertii, including those responsible for known biochemical features and virulence factors and a possibly active second T3SS known as ETT2 (E. coli T3SS 2) that is inactivated in E. coli. Although this organism has been observed to be nonmotile in vitro, genes for flagellar biosynthesis are fully conserved; chemotaxis-related genes have been selectively deleted. Based on these results, we have developed a nested polymerase chain reaction system to directly detect E. albertii. Our data define the genomic features of E. albertii and provide a valuable basis for future studies of this important emerging enteropathogen.

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Human Gastroenteritis Outbreak Associated withEscherichia albertii, Japan

Ooka¹,

Tokuoka²,

Furukawa³

et al. 2013

Emerg. Infect. Dis.

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Control of Toxicity of Sarcocystis fayeri in Horsemeat by Freezing Treatment and Prevention of Food Poisoning Caused by Raw Consumption of Horsemeat

Harada¹,

Furukawa²,

Tokuoka³

et al. 2013

Journal of the Food Hygienics Society of Japan

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A double-quadratic model for predicting Vibrio species in water environments of Japan

Izumiya

Furukawa²,

Ogata³

et al. 2017

Arch Microbiol

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Vibrio spp. are natural inhabitants of marine and estuarine environments. Vibrio cholerae, Vibrio parahaemolyticus, and Vibrio vulnificus are the major infectious agents for humans. Their densities are affected by environmental factors such as water temperature and salinity. The detailed contribution of each factor still remains to be elucidated. Here we conducted multi-coastal study in a 21-month period to examine relationships between environmental factors and V. cholerae, V. parahaemolyticus and V. vulnificus densities in sea surface water in eight coastal sites of four prefectures in Japan. Vibrio densities were measured by a most-probable-number with PCR method which is highly sensitive and quantitative (3/100 ml of detection limit). Vibrio densities were analyzed with environmental factors including water temperature, salinity, total dissolved substance, and pH, and their quadratics. A linear regression model suited best for prediction of V. cholerae density. A novel double-quadratic model suited best for the prediction of V. parahaemolyticus and V. vulnificus densities.

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The Development of a Novel, Validated, Rapid and Simple Method for the Detection of <i>Sarcocystis fayeri</i> in Horse Meat in the Sanitary Control Setting

Furukawa

Minegishi²,

Izumiyama

et al. 2016

Biocontrol Sci.

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Sarcocystis fayeri (S. fayeri) is a newly identified causative agent of foodborne disease that is associated with the consumption of raw horse meat. The testing methods prescribed by the Ministry of Health, Labour and Welfare of Japan are time consuming and require the use of expensive equipment and a high level of technical expertise. Accordingly, these methods are not suitable for use in the routine sanitary control setting to prevent outbreaks of foodborne disease. In order to solve these problems, we have developed a new, rapid and simple testing method using LAMP, which takes only 1 hour to perform and which does not involve the use of any expensive equipment or expert techniques. For the validation of this method, an inter-laboratory study was performed among 5 institutes using 10 samples infected with various concentrations of S. fayeri. The results of the inter-laboratory study demonstrated that our LAMP method could detect S. fayeri at concentrations greater than 10(4) copies/g. Thus, this new method could be useful in screening for S. fayeri as a routine sanitary control procedure.

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Masato Furukawa

Defining the genome features ofEscherichia albertii, an emerging enteropathogen closely related toEscherichia coli

Human Gastroenteritis Outbreak Associated withEscherichia albertii, Japan

Control of Toxicity of Sarcocystis fayeri in Horsemeat by Freezing Treatment and Prevention of Food Poisoning Caused by Raw Consumption of Horsemeat

A double-quadratic model for predicting Vibrio species in water environments of Japan

The Development of a Novel, Validated, Rapid and Simple Method for the Detection of <i>Sarcocystis fayeri</i> in Horse Meat in the Sanitary Control Setting

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