• Journal of the Korean Society of Food Culture
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• v.19 no.6
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• pp.587-597
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• 2004

Application of pheasant and soybean extracts to improve the quality of baechu kimchi was attempted. Pheasant and soybean extracts at various combinatory concentrations were added into baechu kimchi and fermented for 24 days at $10^{\circ}C$. Assay was performed on salinity, acidity, bacterial growth, sensory evaluations, and physical properties. The pH decreased, and acidity increased by fermentation time. The optimum pH 4.2 was reached within $12{\sim}15\;days$, and optimum acidity was reached within $6{\sim}9\;days$. The number of lactic acid bacteria was increased by fermentation time. Score of intensity characteristics in color. crispness carbonated taste, and overall quality were higher for the pheasant and soybean extracts added baechu kimchi(B) than for the control product(S). The result of L and a value of baechu kimchi were Higher in treatment than in control as fermentation time increased. The hardness of baechu kimchi with pheasant and soybean extracts(B) were higher than those of control(S).

• Applied Biological Chemistry
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• v.47 no.1
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• pp.27-32
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• 2004

The antagonistic microorganisms against Salmonella gallinarum causing fowl typhoid were isolated from the gut of wild pheasant. The isolated L19, L33, L50 strains were showed the characteristics of isolated Gram negative, rods, catalase positive and oxidase negative. Finally, all strains were identified as Sphingomonas sanguis by $Biolog^{\circledR}$ system. The optimal carbon sources of Sphingomonas sanguis L19, L33 and L50 for the these growth ~ere glucose, saccharose, and fructose respectively. But the optimal carbon sources of S. sanguis L19,L33, L50 for the antagonistic material production were maltose, galactose, and saccharose respectively. The optimal nitrogen sources of S. sanguis L19, L33, L50 for the growth were yeast extract, yeast extract, and $NH_4H_2PO_4$ respectively. But the optimal nitrogen sources of S. sanguis L19, L33 and L50 for the antagonistic material production were $(NH_4)_2SO_4$ urea, $(NH_4)_2S_2O_8$ espectively.