Starter Cultures for Meat Fermentation 217Pereira , C. , M. Crespo , and V. Rom ã o. 2001. Evidence
for proteolytic activity and biogenic amines produc-
tion in Lactobacillus curvatus and L. homohiochii.
International Journal of Food Microbiology
68 ( 3 ): 211 – 216.
Place , R. , D. Hiestand , H. Gallmann , and M. Teuber.
2003. Staphylococcus equorum subsp. linens, subsp.
nov., a starter culture component for surface ripened
semi - hard cheese. Systematic Applied Microbiology
26 : 30 – 7.
Planchon , S. , C. Chambon , M. Desvaux , I. Chafsey , S.
Leroy , R. Talon , and M. Hebraud. 2007. Proteomic
analysis of cell envelope proteins from Staphylococcus
xylosus C2a. Journal of Proteomics Research
6 ( 9 ): 3566 – 80.
Planchon , S. , B. Gaillard - Martinie , E. Dordet - Frisoni ,
M. Bellon - Fontaine , S. Leroy , J. Labadie , M. H é braud ,
and R. Talon. 2006. Formation of biofi lm by
Staphylococcus xylosus. International Journal of
Food Microbiology 25 - 109 ( 1 – 2 ): 88 – 96.
Rantsiou , K. , and L. Cocolin. 2006. New developments
in the study of the microbiota of naturally fermented
sausages as determined by molecular methods: A
review. International Journal of Food Microbiology
108 : 255 – 267.
Rodr í guez , M. , F. N ù nez , J. C ò rdoba , M. Berm ù dez , and
M. Asensio. 1998. Evaluation of proteolytic activity
of micro - organisms isolated from dry cured ham.
Journal of Applied Microbiology 85 : 905 – 912.
Rosenstein , R. , C. Nerz , L. Biswas , A. Resch , G.
Raddatz , S. Schuster , and F. G ö tz. 2009. Genome
analysis of the meat starter culture Staphylococcus
carnosus TM300. Applied and Environmental
Microbiology 75 ( 3 ): 811 – 822.
Samelis , J. , J. Metaxopoulos , M. Vlassi , and A. Pappa.
1998. Stability and safety of traditional Greek salami—
— A microbiological ecology study. International
Journal of Food Microbiology 44 : 69 – 82.
Sanz , Y. , and F. Toldr á. 2002. Purifi cation and charac-
terization of an arginine aminopeptidase from
Lactobacillus sakei. Applied and Environmental
Microbiology 68 ( 4 ): 1980 – 1987.
Sanz , Y. , S. Fadda , G. Vignolo , C. Aristoy , G. Oliver ,
and F. Toldr á. 1999. Hydrolysis of muscle myofi bril-
lar proteins by Lactobacillus curvatus and
Lactobacillus sakei. International Journal of Food
Microbiology 53 : 115 – 125.
Shah , N. 2000. Probiotic bacteria: Selective enumeration
and survival in dairy foods. Journal of Dairy Science
83 ( 4 ): 894 – 907.
Shah , N. , and R. Ravula. 2000. Microencapsulation of
probiotic bacteria and their survival in frozen fer-
mented dairy desserts. Australian Journal of Dairy
Technology 55 ( 3 ): 139 – 144.
Shalaby , A. 1996. Signifi cance of biogenic amines to
food safety and human health. Food Research
International 29 ( 7 ): 675 – 690.
Sondergaard , A. , and H. Stahnke. 2002. Growth and
aroma production by Staphylococcus xylosus, S. car-
nosus and S. equorum — A comparative study in
model systems. International Journal of Food
Microbiology 75 : 99 – 109.sages. Letters and Applied Microbiology 31 : 228 –
232.
Mauriello , G. , A. Casaburi , G. Blaiotta , and F. Villani.
2004. Isolation and technological properties of coagu-
lase negative staphylococci from fermented sausages
of Southern Italy. Meat Science 67 : 49 – 158.
Mauriello , G. , A. Casaburi , and F. Villani. 2002.
Proteolytic activity of Staphylococcus xylosus strains
on pork myfi brillar and sarcoplasmic proteins and use
of selected strains in the production of “ Naples type ”
salami. Journal of Applied Microbiology 92 : 482 –
490.
Miralles , M. C. , J. Flores , and G. Perez - Martinez. 1996.
Biochemical tests for the selection of Staphylococcus
strains as potential meat starter cultures. Food
Microbiology 13 : 1 – 10.
Molly , K. , D. Demeyer , G. Johansson , M. Raemaekers ,
M. Ghistelinck , and I. Geenen. 1997. The importance
of meat enzymes in ripening and fl avour generation
in dry fermented sausages. First results of a European
project. Food Chemistry 59 ( 4 ): 539 – 545.
Montel , M. , J. Reitz , R. Talon , J. Berdagu é , and S.
Rousset - Akrim. 1996. Biochemical activities of
Micrococcaceae and their effects on the aromatic pro-
fi les and odours of a dry sausage model. Food
Microbiology 13 : 489 – 499.
Montel , M. , F. Masson , and R. Talon. 1998. Bacterial
role in fl avour development. Meat Science
49 : 111 – 123.
Muthukumarasamy , P. , and R. Holley. 2006.
Microbiological and sensory quality of dry fermented
sausages containing alginate - microencapsulated
Lactobacillus reuteri. International Journal of Food
Microbiology 111 : 164 – 169.
Niinivaara , F. 1955. Ü ber den Einfl uss von
Bacterienreinkulturen auf die Reifung und Umr ö tung
der Rohwurst. Acta Agralia Fennica 84 : 1 – 128.
Noonpakdeea , W. , K. Pucharoen , R. Valyasevi , and S.
Panyim. 1996. Molecular cloning, DNA sequencing
and expression of catalase gene of Lactobacillus
sake SR911. Journal of Molecular Biology and
Biotechnology 4 : 229 – 235.
Olesen , P. , A. Strunge Meyer , and L. Stahnke. 2004.
Generation of fl avour compounds in fermented
sausages — the infl uence of curing ingredients,
Staphylococcus starter culture and ripening time.
Meat Science 66 : 675 – 687.
Papamanoli , E. , N. Tzanetakis , E. Litopoulou - Tzanetaki ,
and P. Kotzekidou. 2003. Characterization of lactic
acid bacteria isolated from a Greek dry fermented
sausage in respect of their technological and probiotic
properties. Meat Science 65 : 859 – 867.
Parente , E. , M. Martuscelli , F. Gardini , S. Grieco , M. A.
Crudele , and G. Suzzi. 2001. Evolution of microbial
populations and biogenic amine production in dry
sausages produced in Southern Italy. Journal of
Applied Microbiology 90 ( 6 ): 882 – 891.
Pennacchia , C. , D. Ercolini , G. Blaiotta , O. Pepe , G.
Mauriello , and F. Villani. 2004. Selection of
Lactobacillus strains from fermented sausages for
their potential use as probiotics. Meat Science
67 : 309 – 317.