Food Biochemistry and Food Processing

31 Emerging Bacterial Foodborne Pathogens and Methods of Detection 743

Moore, JG Seidman, JA Smith, K Struhl, editors.
Current Protocols in Molecular Biology. Canada:
John Wiley and Sons, Inc. Pp. 2.8.1–2.8.17.
Snyder A, Marquis H. 2003. Restricted translocation
across the cell wall regulates secretion of the broad-
range phospholipase C of Listeria monocytogenes.
J Bacteriol 185(20): 5953–5958.
Solomon EB, Yaron S, Matthews KR. 2002. Trans-
mission of Escherichia coliO157:H7 from contami-
nated manure and irrigation water to lettuce plant tis-
sue and its subsequent internalization. Appl Envir
Biol 68(1): 397–400.
Stachowiak R, Bielecki J. 2001. Contribution of hem-
olysin and phospholipase activity to cytolytic prop-
erties and viability of Listeria monocytogenes. Acta
Microbiol Pol 50(3–4): 243–250.
Swaminthan B, Barrett TJ, Hunter SB, Tauxe RV, Force
CPT. 2001. PulseNet: The molecular subtyping net-
work for foodborne bacterial disease surveillance,
United States. Emerg Infect Dis 7(3): 382–389.
Takeda T, Yoshino K-I, Ramamurthy T, Nair GB. 1999.
Heat-stable enterotoxins for Vibrioand Yersiniaspe-
cies. In: JE Alouf, JH Freer, editors. The Com-
prehensive Sourcebook of Bacterial Protein Toxins,
2nd edition. Toronto: Academic Press. Pp. 545–556.
Tauxe RV. 1998. Public health perspective on immuno-
prophylactic strategies for Escherichia coliO157:H7:
who or what would we immunize? In: JB Kaper, AD
O’Brien, editors. Escherichia coliO157:H7 and
Other Shiga Toxin-Producing E coli Strains.
Washington, D.C.: ASM Press. Pp. 445–452.
———. 2002. Emerging foodborne pathogens. Int J
Food Microbiol 78:31–41.
Tesh VL. 1998. Cytokine response to shiga toxin. In:
JB Kaper, AD O’Brien, editors. Escherichia coli
O157:H7 and Other Shiga Toxin-Producing E coli
Strains. Washington, D.C.: ASM Press. Pp. 226–235.
Titball RW. 1999. Membrane-damaging and cytotoxic
phospholipases. In: JE Alouf, JH Freer, editors. The
Comprehensive Sourcebook of Bacterial Protein
Toxins, 2nd edition. Toronto: Academic Press. Pp.
310–329.
Turnbough Jr. CL. 2003. Discovery of phage display
peptide ligands for species-specific detection of
Bacillusspores. J Micriobiol Meth 53:263–271.
Uyttendaele M, Debvrere J, Lindqvist R. 1999.
Evaluation of buoyant density centrifugation as a
sample preparation method for NASBA-ELGA
detection of Campylobacter jejuniin foods. Food
Microbiol 16:575–582.
Uyttendaele M, Schukkink R, Debvrere J. 1995a.
Detection of Campylobacter jejuniadded to foods

by using a combined selective enrichment and nucle-

ic acid sequence-based amplification (NASBA).

Appl Envir Biol 61(4): 1341–1347.

Uyttendaele M, Schukkink R, van Gemen B, Debvrere

J. 1995b. Development of NASBA, a nucleic acid

amplification system, for identification of Listeria

monocytogenesand comparison to ELISA and a

modified FDA method. Int J Food Microbiol 27:77–

89.

Volokhov D, Rasooly A, Chumankov K, Chizhikov V.

2002. Identification of Listeria species by
      microarray-based assay. J Clin Microbiol 40(12):
      4720–2728.
      Vu KB, Ghahroudi MA, Wyns L, Muyldermans S.


2003. Comparison of llama VH sequences from con-
      ventional and heavy chain antibodies. Mol Immunol
      34(16–17): 1121–1131.
      Wagner M, Schmid M, Juretschko S, Trebesius K-H,
      Bubert A, Goebel W, Schleifer K-H. 1998. In situ
      detection of a virulence factor mRNA and 16S rRNA
      in Listeria monocytogenes. FEMS Microbiol Lett
      160:159–168.
      Wan J, King K, Forsyth S, Coventry MJ. 2003. De-
      tection of Listeria monocytogenesin salmon using
      Probelia polymerase chain reaction system. J Food
      Prot 66(3): 436–440.
      Weidmann M, Bruce JL, Keating C, Johnson AE,
      McDonough PL, Batt CA. 1997. Ribotypes and viru-
      lence gene polymorphisms suggest three distinct
      Listeria monocytogeneslineages with differences in
      pathogenic potential. Infect Immun 65(7): 2707–


2004. 
      

      Whitehouse CA, Balbo PB, Pesci EC, Cottle DL,
      Mirabito PM, Pickett CL. 1998. Campulobacter
      jejunicytolethal distending toxin causes a G 2 -phase
      cell cycle block. Infect Immun 66(5): 1934–1940.
      Williams RC, Isaacs S, Decou ML, Richardson EA,
      Buffett MC, Slinger RW, Brodski MH, Ciebin BW,
      Ellis A, Hocken J et al. 2000. Illness outbreak associ-
      ated with Escherichia coliO157:H7 in Genoa sala-
      mi. Can Med Assoc J 162(10): 1409–1413.
      Wong CS, Jelacic S, Habeeb RL, Watkins SL, Tarr PI.

      
      


2005. The risk of the hemolytic-uremic syndrome
      after antibiotic treatment of Escherichia coliO157:H7
      infections. N Eng J Med 342:1930–1936.
      Woolven BP, Frenkin LGJ, van der Logt P, Nicholls PJ.


2006. The structure of the llama heavy chain con-
      stant genes reveals a mechanism for heavy-chain
      antibody formation. Immunogenet 50:98–101.
      Woteki CE, Kineman BD. 2003. Challenges and
      approaches to reducing foodborne illness. Annu Rev
      Nutr 23:314–344.