- Emami , Khalilian E, Shahsanaei M. Isolation of Lactobacillus lantarum from different
varieties of Iranian native olives and investigation of their antimicrobial activity against two
pathogenic members of Entrobacteriaceae. Biological Journal of Microorganism. 2015;4(13).
2. Lebeer S, anderleyden J, De Keersmaecker SC. Genes and molecules of lactobacilli
supporting probiotic action. Microbiology and Molecular Biology eviews. 2008;72(4):
728-64.
3. Lebeer S, anderleyden J, De Keersmaecker SC. Host interactions of probiotic bacterial
surface molecules: comparison with commensals and pathogens. Nature eviews
Microbiology. 2010;8(3):171-84.
4. Corr SC, Hill C, Gahan CG. Understanding the mechanisms by which probiotics inhibit
gastrointestinal pathogens. Advances in food and nutrition research. 2009;56:1-15.
5. Krishna ao , Samak G. Protection and restitution of gut barrier by probiotics: nutritional
and clinical implications. Current Nutrition Food Science. 2013;9(2):99-107.
6. Mack D, Ahrné S, Hyde L, Wei S, Hollingsworth MA. Extracellular MUC3 mucin secretion
follows adherence of Lactobacillus strains to intestinal epithelial cells in vitro. Gut. 2003;52
(6):827-33.
7. Abreu MT. Toll-like receptor signalling in the intestinal epithelium: how bacterial recognition
shapes intestinal function. Nature eviews Immunology. 2010;10(2):131-44.
8. Wells JM, editor Immunomodulatory mechanisms of lactobacilli. Microbial cell factories;
2011: BioMed Central.
9. Doron S, Snydman D , Gorbach SL. Lactobacillus GG: bacteriology and clinical applications. Gastroenterology Clinics. 2005;34(3):483-98.
10. Segers ME, Lebeer S, editors. Towards a better understanding of Lactobacillus rhamnosus
GG-host interactions. Microbial cell factories; 2014: BioMed Central.
11. Kankainen M, Paulin L, Tynkkynen S, von Ossowski I, eunanen J, Partanen P, et al.
Comparative genomic analysis of Lactobacillus rhamnosus GG reveals pili containing a
human-mucus binding protein. Proceedings of the National Academy of Sciences. 2009;106
(40):17193-8.
12. Tuomola EM, Ouwehand AC, Salminen SJ. The effect of probiotic bacteria on the adhesion
of pathogens to human intestinal mucus. FEMS Immunology Medical Microbiology.
1999;26(2):137-42.
13. McGuire S. US department of agriculture and US department of health and human services,
dietary guidelines for americans, 2010. Washington, DC: US government printing office, January 2011. Oxford University Press; 2011.
14. athore A, Bhambure , Ghare . Process analytical technology (PAT) for
biopharmaceutical products. Analytical and bioanalytical chemistry. 2010;398(1):137-54.
15. He S, Wang H, Wu B, hou H, hu P, Yang , et al. esponse surface methodology
optimization of fermentation conditions for rapid and efficient accumulation of macrolactin A
by marine Bacillus amyloliquefaciens ESB-2. Molecules. 2013;18(1):408-17.
16. Lei H, hao H, Yu , hao M. Effects of wort gravity and nitrogen level on fermentation
performance of brewer’s yeast and the formation of flavor volatiles. Applied biochemistry and
biotechnology. 2012;166(6):1562-74.
17. Salihu A, Bala M, Bala SM. Application of Plackett-Burman experimental design for lipase
production by Aspergillus niger using shea butter cake. International Scholarly esearch
Notices. 2013.
18. Alvarez M, Aguirre-Ezkauriatza E, amírez-Medrano A, odríguez-S nchez Á. Kinetic
analysis and mathematical modeling of growth and lactic acid production of Lactobacillus
casei var. rhamnosus in milk whey. Journal of dairy science. 2010;93(12):5552-60.
19. Khoshayand F, Goodarzi S, Shahverdi A , Khoshayand M . Optimization of culture
conditions for fermentation of soymilk using Lactobacillus casei by response surface
methodology. Probiotics and antimicrobial proteins. 2011;3(3-4):159-67.
20. Pedram N, Ataei S. Optimization of a Modified GS Medium for a Probiotic Strain
(L. acido hilus ATCC4356). 2014.
21. Hwang C-F, Chang J-H, Houng J-Y, Tsai C-C, Lin C-K, Tsen H-Y. Optimization of medium
composition for improving biomass production of Lactobacillus lantarum Pi06 using the
Taguchi array design and the Box-Behnken method. Biotechnology and Bioprocess
Engineering. 2012;17(4):827-34.
22. Chang C, Liew S. Growth Medium Optimization for Biomass Production of a Probiotic
Bacterium, L. actobacillus rhamnosus ATCC 746. Journal of Food Biochemistry. 2013;37
(5):536-
23. Bern rdez PF, Amado I , Castro LP, Guerra NP. Production of a potentially probiotic culture
of Lactobacillus casei subsp. casei CECT 4043 in whey. International Dairy Journal. 2008;18
(10-11):1057-65.
24. Aguirre-Ezkauriatza E, Aguilar-Y ñez J, amírez-Medrano A, Alvarez M. Production of
probiotic biomass (Lactobacillus casei) in goat milk whey: Comparison of batch, continuous
and fed-batch cultures. Bioresource Technology. 2010;101(8):2837-44.
25. Ming LC, Halim M, Abd ahim , Wan HY, Ariff AB. Strategies in fed-batch cultivation on
the production performance of Lactobacillus salivarius I 24 viable cells. Food science and
biotechnology. 2016;25(5):1393-8.
26. Krzywonos M, Eberhard T. High density process to cultivate Lactobacillus lantarum
biomass using wheat stillage and sugar beet molasses. Electronic Journal of Biotechnology.
2011;14(2):6-.
27. hang B, Shu G, Bao C, Cao J, Tan Y. Optimization of Culture Medium for Lactobacillus
bulgaricus using Box-Behnken Design. Acta Universitatis Cibiniensis Series E: Food
Technology. 2017;21(1):3-10.
28. Coelho L, De Lima C, odovalho C, Bernardo M, Contiero J. Lactic acid production by new
Lactobacillus lantarum LMISM6 grown in molasses: optimization of medium composition.
Brazilian Journal of Chemical Engineering. 2011;28(1):27-36.
29. Beitel SM, Coelho LF, Contiero J. Efficient Conversion of Agroindustrial Waste into D (-)
Lactic Acid by Lactobacillus delbrueckii Using Fed-Batch Fermentation. BioMed esearch
International.;2020.
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