Food Biochemistry and Food Processing (2 edition)

(Wang) #1

BLBS102-c44 BLBS102-Simpson March 21, 2012 14:34 Trim: 276mm X 219mm Printer Name: Yet to Come


852 Part 8: Food Safety and Food Allergens

Hunter CJ et al. 2008.Enterobacter sakazakii: an emerging pathogen
in infants and neonates.Surg Infect (Larchmt)9: 533–539.
Indra A et al. 2009.Clostridium difficile: a new zoonotic agent?
Weiner Klinische Wochenschrift121: 91–95.
Inglis GD et al. 2004. Chronic shedding ofCampylobacterspecies
in beef cattle.J Appl Microbiol97: 410–420.
Isonhood JH, Drake M. 2002.Aeromonasspecies in foods.J Food
Prot65: 575–582.
Iversen C, Forsythe S. 2003. Risk profile forEnterobacter sakazakii,
an emergent pathogen associated with infant milk formula.Trends
Food Sci Technol14: 443–454.
Iversen C, Forsythe S. 2004. Isolation ofEnterobacter sakazakii
and other enterobacteriaceae from powdered infant formula milk
and related products.Food Microbiol21: 771–777.
Iversen C et al. 2004 The growth profile, thermotolerance and
biofilm formation ofEnterobacter sakazakiigrown in infant for-
mula.Lett Appl Microbiol38: 378–382.
Iversen C et al. 2008.Cronobacter gen. nov., a new genus to accom-
modate the biogroups ofEnterobacter sakazakiiand proposal of
Cronobacter sakazakii gen.nov., comb., nov.,Cronobacter mal-
onaticus sp. nov.,Cronobacter genomospecies1, and three sub-
species,Cronobacter dublinensis, subsp dublinensis subsp. nov.,
andCronobacter dublinensis subsp. lausannensis subsp. nov.and
Cronobacter dublinensissubsp. lactardi subsp.nov.Int J Syst Evol
Microbiol58: 1442–1447.
Jacob J et al. 1993. Isolation ofArcobacter butzlerifrom a drinking
water reservoir in Eastern Germany.Zentralbl Hyg Umweltmed
193: 557–562.
Jacobs BC et al. 2008. Guillain-Barre syndrome andCampylobacter
infection. In: I. Nachamkin, et al. (eds.)Campylobacter, 3rd edn.
ASM Press, Washington, DC, pp. 245–261.
Jacobs-Reitsma W. 2000.Campylobacterin the food supply. In:
I Nachamkin, MJ Blaser (eds.)Campylobacter2nd edn. ASM
Press, Washington, DC, pp. 467–481.
Janda JM, Abbott SL. 1999. Unusual food-borne pathogens.Liste-
ria monocytogenes,Aeromonas,plesiomonas,andEdwardsiella
species.Clin Lab Med19: 553–582.
Janda JM, Abbott SL. 2010. The GenusAeromonas: taxonomy,
pathogenicity, and infection.Clin Microbiol Rev23: 35–73.
Janda JM et al. 1994.Aeromonasspecies in septicemia: labora-
tory characteristics and clinical observations.Clin Infect Dis19:
77–83.
Jin HY et al. 2005. Microarray analysis ofEscherichia coli
O157:H7.World J Gastroenterol7: 5811–5815.
Jobstl M et al. 2009.Clostridium difficilein raw products of animal
origin.Int J Food Microbiol138: 172–175.
Johnson TJ et al. 2010. Sequence analysis and characterization of
a transferable hybrid plasmid encoding multidrug resistance and
enabling zoonotic potential for extraintestinalEscherichia coli.
Infect Immun78: 1931–942.
Johnson TJ, Nolan LK. 2009. Pathogenomics of the virulence plas-
mids ofEscherichia coli.Microbiol Mol Biol Rev73: 750–774.
Johnson TJ et al. 2004. Multiple antimicrobial resistance region
of a putative virulence plasmid from anEscherichia coliiso-
late incriminated in avian colibacillosis.Avian Dis48: 351–
360.
Johnson TJ et al. 2007. Plasmid replicon typing of commensal and
pathogenicEscherichia coliisolates.Appl Environ Microbiol73:
1976–1983.

Kabeya H et al. 2003. Distribution ofArcobacterspecies among
livestock in Japan.Vet Microbiol93: 153–158.
Kabeya H et al. 2004. Prevalence ofArcobacterspecies in retail
meats and antimicrobial susceptibility of the isolates in Japan.
Int J Food Microbiol90: 303–308.
Kaittanis C et al. 2010. Emerging nanotechnology-based strategies
for the identification of microbial pathogenesis.Adv Drug Deliv
Rev18: 408–423.
Kalasinsky KS et al. 2007. Raman chemical imaging spectroscopy
reagentless detection and identification of pathogens: signature
development and evaluation.Anal Chem79: 2658–2673.
Kandhai MC et al. 2004. Occurrence ofEnterobacter sakazakii
in food production environments and households.Lancet363:
39–40.
Karakousis PC et al. 2004.Mycobacterium aviumcomplex in pa-
tients with HIV infection in the era of highly active anti-retroviral
therapy.Lancet Infect Dis4: 557–565.
Kawasaki S et al. 2010. Multiplex real-time polymerase chain re-
action assay for simultaneous detection and quantification of
Salmonellaspecies,Listeria monocytogenesandEscherichia coli
O157:H7 in ground pork samples.Foodborne Pathog Dis7:
549–554.
Keramas G et al. 2004. Use of culture, PCR analysis, and DNA
microarrays for detection ofCampylobacter jejuniandCampy-
lobacter colifrom chicken feces.J Clin Microbiol42: 3985–
3991.
Kim J-Y et al. 2005. Isolation and identification ofEscherichia
coliO157:H7 using different detection methods and molecular
determination by multiplex PCR and RAPD.JVetSc6: 7–19.
Kim JS et al. 2007a. A novel multiplex PCR assay for rapid
and simultaneous detection of five pathogenic bacteria:Es-
cherichia coliO157:H7,Salmonella,Stapylococcus aureus,Lis-
teria monocytogenesandVibrio parahaemolyticus.J Food Prot
70: 1656–1662.
Kim H et al. 2007b. Effectiveness of disinfectants in killingEnter-
obacter sakazakiiI suspension dried on the surface of stainless
steel, and in a biofilm.Appl Environ Microbiol73: 1256–1265.
Kimura R et al. 2000. Restriction site specific PCR as a rapid test
to detect enterohemorrhagicEscherichia coliO157:H7 strains in
Environmental samples.Appl Environ Microbiol66: 5213–2519.
Kingombe CIB et al. 1999. PCR detection, characterization, and
distribution of virulence genes inAeromonasspp.Appl Environ
Microbiol65: 5293–5302.
Kirov SM. 1993a. The public health significance ofAeromonasspp.
In foods.Int J Food Microbiol20: 179–198.
Kirov SM et al. 1993b. Milk as a potential source ofAeromonas
gastrointestinal infection.J Food Prot56: 306–312.
Kirsner JB. 1999. “Nonspecific” inflammatory bowel disease (ul-
cerative colitis and Crohn’s disease) after 100 years – what next?.
Ital J Gastroenterol Hepatol31: 651–658.
Klein PG, Juneja VK. 1997. Sensitive detection of viableListe-
ria monocytogenesby reverse transcription-PCR.Appl Environ
Microbiol63: 4441–8.
Ko SH, Grant SA. 2006. A novel FRET-based optical biosensor for
rapid detection ofSalmonella typhimurium.Biosens Bioelectron
21: 1283–1290.
Kostic T et al. 2007. A microbial diagnostic microarray technique
for the sensitive detection and identification of pathogenic bacte-
ria in a background of nonpathogens.Anal Biochem15: 244–254.
Free download pdf