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Effects of Thermal Treatments on Inactivation of Histidine Decarboxylase from Morganella morganii and Photobacterium phosphoreum
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 Title & Authors
Effects of Thermal Treatments on Inactivation of Histidine Decarboxylase from Morganella morganii and Photobacterium phosphoreum
Pak, Won-Min; Kim, Koth-Bong-Woo-Ri; Kim, Min-Ji; Park, Ji-Hye; Bae, Nan-Young; Park, Sun-Hee; Ahn, Dong-Hyun;
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 Abstract
This study was performed to investigate the effects of various thermal treatments on the growth of Morganella morganii and Photobacterium phosphoreum and activity of crude histidine decarboxylase (HDC) obtained from M. morganii and P. phosphoreum. Crude HDC and the two strains were treated at /30 min, /10 min, /10 min, and /10 min. Activity of crude HDC decreased with increasing temperature. Viable cells counts of M. morganii and P. phosphoreum were not detected in any heated samples. SDS-PAGE patterns of heated HDC did not show significant differences up to . However, at , protein band intensity was weakened. In native-PAGE, there was a major change in the pattern of HDC at . These results suggest that thermal treatment can help to reduce histamine production by reducing HDC activity and growth of M. morganii and P. phosphoreum.
 Keywords
thermal treatment;Morganella morganii;Photobacterium phosphoreum;histidine decarboxylase;
 Language
Korean
 Cited by
 References
1.
Ferencík M. 1970. Formation of histamine during bacterial decarboxylation of histidine in the flesh of some marine fishes. J Hyg Epidemiol Microbiol Immunol 14: 52-60.

2.
Kawabata T, Ishizaka K, Miura T. 1956. Studies on the food poisoning associated with putrefaction of marine products- VII. An outbreak of allergy-like food poisoning caused by "sashimi" of Parathunnus mebachi and the isolation of causative bacteria. Bull Jpn Soc Sci Fish 22: 41-47. crossref(new window)

3.
Kanki M, Yoda T, Tsukamoto T, Baba E. 2007. Histidine decarboxylase and their role in accumulation of histamine in tuna and dried saury. Appl Environ Microbiol 73: 1467- 1473. crossref(new window)

4.
Lerke PA, Werner SB, Taylor SL, Guthertz LS. 1978. Scombroid poisoning. Report of an outbreak. West J Med 129: 381-386.

5.
Taylor SL, Guthertz LS, Leatherwood M, Lieber ER. 1979. Histamine production by Klebsiella pneumoniae and an incident of scombroid fish poisoning. Appl Environ Microbiol 37: 274-278.

6.
Havelka B. 1967. Role of the Hafnia bacteria in the rise of histamine in tuna fish meat. Cesk Hyg 12: 343-352.

7.
Omura Y, Price RJ, Olcott HS. 1978. Histamine forming bacteria isolated from spoiled skipjack tuna and jack mackerel. J Food Sci 43: 1779-1781. crossref(new window)

8.
Taylor SL, Speckhard MW. 1983. Isolation of histamineproducing bacteria from frozen tuna. Mar Fish Rev 45: 35-39.

9.
Yoshinaga DH, Frank HA. 1982. Histamine-producing bacteria in decomposing skipjack tuna (Katsuwonus pelamis). Appl Environ Microbiol 44: 447-452.

10.
ten Brink B, Damink C, Joosten HMLJ, Huis in't Veld JHJ. 1990. Occurrence and formation of biologically active amines in foods. Int J Food Microbiol 11: 73-84. crossref(new window)

11.
Moya-Garcia AA, Medina MA, Sanchez-Jimenez F. 2005. Mammalian histidine decarboxylase: from structure to function. Bioessays 27: 57-63. crossref(new window)

12.
Hungerford JM. 2010. Scombroid poisoning: a review. Toxicon 56: 231-243. crossref(new window)

13.
Mah JH, Hwang HJ. 2009. Inhibition of biogenic amine formation in a salted and fermented anchovy by Staphylococcus xylosus as a protective culture. Food Control 20: 796-801. crossref(new window)

14.
Mah JH, Kim YJ, Hwang HJ. 2009. Inhibitory effects of garlic and other spices on biogenic amine production in Myeolchi-jeot, Korean salted and fermented anchovy product. Food Control 20: 449-454. crossref(new window)

15.
Wendakoon CN, Sakahuchi M. 1993. Combined effect of sodium chloride and clove on growth and biogenic amine formation of Enterobacter aerogenes in mackerel muscle extract. J Food Prot 56: 410-413.

16.
Shakila RJ, Vasundhara TS, Rao DV. 1996. Inhibitory effect of spices on in vitro histamine production and histidine decarboxylase activity of Morganella morganii and on the biogenic amine formation in mackerel stored at 30 degrees C. Z Lebensm Unters Forsch 203: 71-76. crossref(new window)

17.
Kim DH, Kim KB, Cho JY, Ahn DH. 2014. Inhibitory effects of brown algae extracts on histamine production in mackerel muscle via inhibition of growth and histidine decarboxylase activity of Morganella morganii. J Microbiol Biotechnol 24: 465-474. crossref(new window)

18.
Kim DH, Kim KBWR, Ahn DH. 2013. Inhibitory effects of high-hydrostatic-pressure treatments on histamine production in mackerel (Scomber japonicus) muscle inoculated with Morganella morganii and Photobacterium phosphoreum. Food Control 34: 307-311. crossref(new window)

19.
Lee K, Kim KH, Kim HK. 2002. Thermal inactivation parameters of peroxidase in Flammulina velutipes and Lyophyllum ulmarium. Korean J Food Sci Technol 34: 1067- 1072.

20.
Jun SY, Lee YK. 2014. Effects of heat treatments on the microbial reduction and germination rates of red radish sprout seeds (Raphanus sativus). Korean J Food Preserv 21: 544-548. crossref(new window)

21.
Tanase S, Guirard BM, Snell EE. 1984. Purification and properties of a pyridoxal 5'-phosphate-dependent histidine decarboxylase from Morganella morganii AM-15. J Biol Chem 260: 6738-6746.

22.
Setlow B, Setlow P. 1995. Small, acid-soluble proteins bound to DNA protect Bacillus subtilis spores from killing by dry heat. Appl Environ Microbiol 61: 2787-2790.

23.
Laemmli UK. 1970. Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature 227: 680-685. crossref(new window)

24.
Emborg J, Dalgaard P. 2008. Growth, inactivation and histamine formation of Morganella psychrotolerans and Morganella morganii-development and evaluation of predictive models. Int J Food Microbiol 128: 234-243. crossref(new window)

25.
Osborne CM, Bremer PJ. 2000. Application of the Bigelow (z-value) model and histamine detection to determine the time and temperature required to eliminate Morganella morganii from seafood. J Food Prot 63: 277-280.

26.
Nicholson WL, Munakata N, Horneck G, Melosh HJ, Setlow P. 2000. Resistance of Bacillus endospores to extreme terrestrial and extraterrestrial environments. Microbiol Mol Biol Rev 64: 548-572. crossref(new window)

27.
Tabanelli G, Torriani S, Rossi F, Rizzotti L, Gardini F. 2012. Effect of chemico-physical parameters on the histidine decarboxylase (HdcA) enzymatic activity in Streptococcus thermophilus PRI60. J Food Sci 77: M231-237. crossref(new window)

28.
Guirard BM, Snell EE. 1987. Purification and properties of pyridoxal-5'-phosphate-dependent histidine decarboxylases from Klebsiella planticola and Enterobacter aerogenes. J Bacteriol 169: 3963-3968.