Biology Reference
In-Depth Information
Felsenfeld, O. and Cabirac, H.B. (1977). A study of the ecology of
Vibrio parahaemolyticus
and
Vibrio alginolyticus
in Southeast Louisiana USA with special consideration of seafood
consumption. J. Appl. Nutr. 29(1/2): 17-28.
Fields, P., Popovic, T.,Wachsmuth, K. and Olsvik, O. (1992). Use of polymerase chain reaction
for detection of toxigenic
Vibrio cholerae
O1 strains from the Latin American cholera
epidemic. J. Clin. Microbiol. 30: 2118-2121.
Franciosa, G., Ferreira, J. and Hatheway, C. (1994). Detection of type A, B, and E botulinum
neurotoxin genes in
Clostridium botulinum
and other
Clostridium
species by PCR: Evidence
of unexpressed type B toxin genes in type A toxigenic organisms. J. Clin. Microbiol. 32:
1911-1917.
Fujino, T. (1951). Bacterial Food Poisoning. Saishin Igaku. 6: 263-271. In Japanese.
Fujino, T., Okuno, Y., Nakada, D., Aoyama, A., Fukai, K., Mukai, T. and Ueho, T. (1953).
On the bacteriological examination of shirasu food poisoning. Med. J. Osaka Univ
.
4:
299-304.
Fujino, T., Miwatani, T., Yasuda, J., Kondo, M., Takeda, Y., Akita, Y., Kotera, K., Okada,
M., Nishimune, H., Shimizu, Y., Tamura, T. and Tamura, Y. (1965). Taxonomic studies
on the bacterial strains isolated from cases of “shirasu” food poisoning (
Pasteurella
parahaemolytica
) and related organisms. Biken J. 8: 63-71.
Fukushima, H., Tsunomori, Y. and Seki, R. (2003). Duplex real-time SYBR green PCR assays
for detection of 17 species of food- or waterborne pathogens in stools. J. Clin. Microbiol.
41: 5134-5146.
Gendel, S., Ulaszek, J., Nishibuchi, M. and DePaola, A. (2001). Automated ribotyping
differentiates
Vibrio parahaemolyticus
O3 : K6 strains associated with a Texas outbreak from
other clinical strains. J. Food Protec. 64(10): 1617-1620.
Goatcher L., Engler, S., Wagner, D. and Westhoff, D. (1974). Effect of storage at 5 C on survival
of
Vibrio parahaemolyticus
in processed Maryland oysters (
Crassostrea virginica).
J. Milk
Food Technol. 37: 74-77.
Hatheway, C. (1993)
. Clostridium botulinum
and other clostridia that produce botulism
neurotoxin. In: Clostridium botulinum: Ecology and Control in Foods. A. H. W. Hauschild
and K.L. Dodds (eds). Marcel Dekker, Inc., New York, USA pp. 3-20.
Hatheway, C. (1995). Botulism: The present status of the disease. Curr. Top. Microbiol. 195:
55-75.
Hielm, S., Hyytiä, E., Ridell, J. and Korkala, H. (1996). Detection of
Clostridium botulinum
in
fi sh and environmental samples using polymerase chain reaction. Int. J. Food Microbiol.
31: 357-365.
Hielm, S., Björkroth, J., Hyytiä, E. and Korkeala, H. (1998). Prevalence of
Clostridium botulinum
in Finnish trout farms: pulsed-fi eld gel electrophoresis typing reveals extensive genetic
diversity among type E isolates. Appl. Environ. Microbiol. 64: 4161-4167.
Hill, W., Keasler, S., Trucksess, M., Feng, P., Kaysner, C. and Lampel, K. (1991). Polymerase
chain reaction identifi cation of
Vibrio vulnifi cus
in artifi cially contaminated oysters. App.
Environ. Microbiol. 5
7
: 707-711.
Honda, S., Goto, I., Minematsu, I., Ikeda, N., Ishibashi, M., Kinoshita, Y., Nishibushi, M.,
Honda, T. and Miwatani, T. (1987). Gastroenteritis due to Kanagawa negative
Vibrio
parahaemolyticus
. Lancet. i: 331-332.
Hughes, J., Boyce, J., Alem, A., Wells, A., Rhaman, A., and Curlin, G. (1978)
. Vibrio
parahaemolyticus
enterocolitis in Bangdladesh: Report of an outbreak. Amer. J. Trop. Med.
Hyg
.
27: 106-112.
Hutson R., Thompson, D. and Collins, M. (1993a). Genetic interrelationships of saccharolytic
Clostridium botulinum
types B, E and F and related clostridia as revealed by small-subunit
rRNA gene sequences. FEMS Microbiol. Lett. 108: 103-110.
Hutson, R., Thompson, D., Lawson, R., Schocken-Itturino, R., Bottger, E. and Collins, M.
(1993b.) Genetic interrelationships of proteolytic
Clostridium botulinum
types A, B, and
F and other members of the
Clostridium botulinum
complex as revealed by small-subunit
rRNA gene sequences. Anton. Leeuwen. J. Microbiol. Serol. 64: 273-283.
