|
•黃則棓,「乳酸菌粉劑試量產-菌種及培養基之探討」,碩士論文,朝陽科技大學應用化學系(所),臺中(2003)。 •黃國欽,「以中藥為益生素提升乳酸菌調節膽固醇能力」,碩士論文,中國醫藥大學中西醫結合研究所,臺中(2004)。 •張宏州,「腸道菌叢對於中醫臨床證型和中藥代謝的影響研究」,碩士論文,中國醫藥大學中西醫結合研究所,臺中(2004)。 •林欣慧,「膳食中草藥對乳酸菌菌體生長之影響」,碩士論文,朝陽科技大學應用化學系(所),臺中(2006)。 •楊哲政,「中草藥萃取液以乳酸菌發酵後對血管收縮素轉換酶抑制活性影響之研究」,碩士論文,南台科技大學生物科技系,臺南(2008)。 •莊子毅,「聚醣類賦形劑在乳酸菌粉生產之應用」,碩士論文,朝陽科技大學生化技術研究所,臺中(2009)。 •陳欽榮,「飼料用益生菌(Bacillus subtilis)之發酵條件與菌株探討」,碩士論文,朝陽科技大學應用化學系(所),臺中(2009)。 •廖啟成,「乳酸菌之分類利用」,食品工業,第30期,第1-10頁(1998)。 •吳輔祐,「羊乳的養生功能值得開發」,羊協一家親,第14卷,第2-6頁(2000)。 •陳水財,「羊乳成分與特性」,酪農天地雜誌,第43卷,第41-43頁(2001)。 •袁杰利,傅曉麗,文姝,唐立,康白,「屎腸球菌活菌製劑的研究」,中國微生態學雜誌,第15卷,第1期,第20-21頁(2003)。 •李靜,馬勛,「糞腸球菌生物膜的形成及影響因素」,中國預防獸醫學報,第30卷,第7期,第523-526頁(2008)。 •黃兆勝,中藥學,文光圖書有限公司,臺北,第2-584頁 (2006)。 •曾政賢,宋良音,林俞均,鄭微宣,中藥材實用圖典,三采文化,臺北,第28-363頁(2006)。 •曾道一,賈怡琛,食品科學概論,新文京開發,臺北,第207-401頁(2006)。 •國學書院系,本草綱目,西北國際,臺北,第25-66頁(2009)。 •蕭聖揚,草本健康99《中藥養生第一課》,紅葉文化,臺北,第27-154頁(2010)。 •Ana Fernández, Avelino Álvarez-Ordóñez, Mercedes López and Ana Bernardo, “Effects of organic acids on thermal inactivation of acid and cold stressed Enterococcus faecium,” Food Microbiology, 26, pp. 497-503(2009). •Bergey’s Manual of Systematic Bacteriology. Vol. 2, pp. 1063-1064. •Bernet-Camard, M. F., V. Lievin, D. brassart, J. R. Nesser, A. L. Servin, and S. Hudault. “The human Lactobacillus acidophilus LA1 secretes a nonbacteriocin antibacterial substances active in vitro and in vivo,” Appl. Environ. Microbiol. 63, pp. 2747-2753.(1997) •Frédéric Leroy, Sarah Vankrunkelsven, Johan De Greef and Luc De Vuyst, “The stimulating effect of a harsh environment on the bacteriocin activity by Enterococcus faecium RZS C5 and dependency on the environmental stress factor used,” Food Microbiology, 83, pp. 27-38(2003). •Frédéric Leroy and Luc De Vuyst, “Bacteriocin production by Enterococcus faecium RZS C5 is cell density limited and occurs in the very early growth phase,” Food Microbiology, 72, pp. 155-164(2002). •Erika Van den Berghe, Tom De Winter and Luc De Vuyst, “Enterocin A production by Enterococcus faecium FAIR-E 406 is characterised by a temperature- and pH-dependent switch-off mechanism when growth is limited due to nutrient depletion,” Food Microbiology, 107, pp. 159-170(2006). •Panagiotis Sarantinopoulos, Lefteris Makras, Frederik Vaningelgem, George Kalantzopoulos, Luc De Vuyst and Effie Tsakalidou, “Growth and energy generation by Enterococcus faecium FAIR-E 198 during citrate metabolism,” Food Microbiology, 84, pp.197-206(2003). •Saïd Ennahar, Yuji Asou, Takeshi Zendo, Kenji Sonomoto and Ayaaki Ishizaki, “Biochemical and genetic evidence for production of enterocins A and B by Enterococcus faecium WHE 81,” Food Microbiology, 70, pp.291-301(2001). • Taranto, M .P. et al., “Bile tolerance and cholesterol reduction by Enterococcus faecium a candidate microorganism for the use as a dietary adjunct in milk products,” Milchwissen-schaft, 51:7 , pp.383-385,(1996). •Zacconi, C., et al., “Serum cholesterol levels in axenic mice colonized with Enterococcus faecium and Lactobacillus acidophilus,” Microbiologica, Oct, 15:4, pp.413-417,(1992).
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