Survival of Salmonella serovars on beef carcasses and molecular mechanisms to survive low temperature stress and desiccation

Gitte Maegaard Knudsen; Line Elnif Thomsen; Søren Aabo; John Elmerdahl Olsen

Survival of Salmonella serovars on beef carcasses and molecular mechanisms to survive low temperature stress and desiccation

Gitte Maegaard Knudsen, Line Elnif Thomsen, Søren Aabo, John Elmerdahl Olsen

Abstract

We have investigated survival of Salmonella serotypes on beef cuts over a 14-days period at 3°C. A reduction in the colony forming (CFU) units were found for all the tested serotypes. The reductions varied from a 30-fold reduction for S. Typhimurium DT104 to a more than 1000-fold reduction for S. Infantis and S. Newport. This experiment indicates that storage at low temperature of beef carcasses can be used as a reduction strategy for Salmonella spp. in beef. In addition molecular mechanisms to resist low temperature stress and desiccation have been investigated. Mutants in the otsA, rpoS and clpP genes of the S. Typhimurium C5 wildtype are under investigation. The mutants and the wildtype have been tested for growth and survival at low temperature and desiccation. No differences were observed between wildtype and mutants after 20 days at fridge temperature (~4°C) on LB agar plates. However, both at 10°C and 15°C, the ¿clpP mutant was severely affected in ability to form colonies compared to the wildtype. Neither the ¿otsA nor the ¿rpoS were affected in growth or survival at low temperature. In a desiccation model, both the ¿rpoS and ¿clpP mutant were more sensitive than the C5 wildtype. No difference was found between the ¿otsA mutant and the wildtype, which was unexpected.

Original language	English
Title of host publication	I3S International Symposium Salmonella and Salmonellosis Proceedings
Number of pages	4
Publisher	ISPAIA Zoopole
Publication date	2006
Pages	353-356
Publication status	Published - 2006
Event	I3S International Symposium Salmonella and Salmonellosis - Saint-Malo, France Duration: 10 May 2006 → 12 May 2006

Conference

Conference	I3S International Symposium Salmonella and Salmonellosis
Country/Territory	France
City	Saint-Malo
Period	10/05/2006 → 12/05/2006

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Survival of Salmonella serovars on beef carcasses and molecular mechanisms to survive low temperature stress and desiccation. / Knudsen, Gitte Maegaard; Thomsen, Line Elnif; Aabo, Søren et al.

I3S International Symposium Salmonella and Salmonellosis Proceedings. ISPAIA Zoopole, 2006. p. 353-356.

Research output: Chapter in Book/Report/Conference proceeding › Article in proceedings › Research

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title = "Survival of Salmonella serovars on beef carcasses and molecular mechanisms to survive low temperature stress and desiccation",

abstract = "We have investigated survival of Salmonella serotypes on beef cuts over a 14-days period at 3°C. A reduction in the colony forming (CFU) units were found for all the tested serotypes. The reductions varied from a 30-fold reduction for S. Typhimurium DT104 to a more than 1000-fold reduction for S. Infantis and S. Newport. This experiment indicates that storage at low temperature of beef carcasses can be used as a reduction strategy for Salmonella spp. in beef. In addition molecular mechanisms to resist low temperature stress and desiccation have been investigated. Mutants in the otsA, rpoS and clpP genes of the S. Typhimurium C5 wildtype are under investigation. The mutants and the wildtype have been tested for growth and survival at low temperature and desiccation. No differences were observed between wildtype and mutants after 20 days at fridge temperature (~4°C) on LB agar plates. However, both at 10°C and 15°C, the ¿clpP mutant was severely affected in ability to form colonies compared to the wildtype. Neither the ¿otsA nor the ¿rpoS were affected in growth or survival at low temperature. In a desiccation model, both the ¿rpoS and ¿clpP mutant were more sensitive than the C5 wildtype. No difference was found between the ¿otsA mutant and the wildtype, which was unexpected.",

author = "Knudsen, {Gitte Maegaard} and Thomsen, {Line Elnif} and S{\o}ren Aabo and Olsen, {John Elmerdahl}",

year = "2006",

language = "English",

pages = "353--356",

booktitle = "I3S International Symposium Salmonella and Salmonellosis Proceedings",

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note = "I3S International Symposium Salmonella and Salmonellosis ; Conference date: 10-05-2006 Through 12-05-2006",

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TY - GEN

T1 - Survival of Salmonella serovars on beef carcasses and molecular mechanisms to survive low temperature stress and desiccation

AU - Knudsen, Gitte Maegaard

AU - Thomsen, Line Elnif

AU - Aabo, Søren

AU - Olsen, John Elmerdahl

PY - 2006

Y1 - 2006

N2 - We have investigated survival of Salmonella serotypes on beef cuts over a 14-days period at 3°C. A reduction in the colony forming (CFU) units were found for all the tested serotypes. The reductions varied from a 30-fold reduction for S. Typhimurium DT104 to a more than 1000-fold reduction for S. Infantis and S. Newport. This experiment indicates that storage at low temperature of beef carcasses can be used as a reduction strategy for Salmonella spp. in beef. In addition molecular mechanisms to resist low temperature stress and desiccation have been investigated. Mutants in the otsA, rpoS and clpP genes of the S. Typhimurium C5 wildtype are under investigation. The mutants and the wildtype have been tested for growth and survival at low temperature and desiccation. No differences were observed between wildtype and mutants after 20 days at fridge temperature (~4°C) on LB agar plates. However, both at 10°C and 15°C, the ¿clpP mutant was severely affected in ability to form colonies compared to the wildtype. Neither the ¿otsA nor the ¿rpoS were affected in growth or survival at low temperature. In a desiccation model, both the ¿rpoS and ¿clpP mutant were more sensitive than the C5 wildtype. No difference was found between the ¿otsA mutant and the wildtype, which was unexpected.

AB - We have investigated survival of Salmonella serotypes on beef cuts over a 14-days period at 3°C. A reduction in the colony forming (CFU) units were found for all the tested serotypes. The reductions varied from a 30-fold reduction for S. Typhimurium DT104 to a more than 1000-fold reduction for S. Infantis and S. Newport. This experiment indicates that storage at low temperature of beef carcasses can be used as a reduction strategy for Salmonella spp. in beef. In addition molecular mechanisms to resist low temperature stress and desiccation have been investigated. Mutants in the otsA, rpoS and clpP genes of the S. Typhimurium C5 wildtype are under investigation. The mutants and the wildtype have been tested for growth and survival at low temperature and desiccation. No differences were observed between wildtype and mutants after 20 days at fridge temperature (~4°C) on LB agar plates. However, both at 10°C and 15°C, the ¿clpP mutant was severely affected in ability to form colonies compared to the wildtype. Neither the ¿otsA nor the ¿rpoS were affected in growth or survival at low temperature. In a desiccation model, both the ¿rpoS and ¿clpP mutant were more sensitive than the C5 wildtype. No difference was found between the ¿otsA mutant and the wildtype, which was unexpected.

M3 - Article in proceedings

SP - 353

EP - 356

BT - I3S International Symposium Salmonella and Salmonellosis Proceedings

PB - ISPAIA Zoopole

T2 - I3S International Symposium Salmonella and Salmonellosis

Y2 - 10 May 2006 through 12 May 2006

ER -

Survival of Salmonella serovars on beef carcasses and molecular mechanisms to survive low temperature stress and desiccation

Abstract

Conference

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