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Optimization Of Freeze-Dried Starter For Yogurt By Full Factorial Experimental Design

He Chen
He Chen
, 
Jinfeng Niu
Jinfeng Niu
, 
Guowei Shu
Guowei Shu
 und 
Hongchang Wan
Hongchang Wan
   | 22. Dez. 2015
Acta Universitatis Cibiniensis. Series E: Food Technology's Cover Image
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Online veröffentlicht: 22. Dez. 2015
Seitenbereich: 27 - 38
DOI: https://doi.org/10.1515/aucft-2015-0012
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© 2015 He Chen et al., published by De Gruyter Open
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

1. Alberti, A., Zielinski, A.A.F., Zardo, D.M., Demiate, I.M., Nogueira, A., and Mafra, L.I. 2014. Optimisation of the extraction of phenolic compounds from apples using response surface methodology. Food Chemistry, 149, 151-158.Search in Google Scholar

2. Analie, L.H., Bennie, C., and Viljoen. 2001. Yogurt as probiotic carrier food. International Dairy Journal. Vol. 88, pp.1–17.Search in Google Scholar

3. Abadias, M., Benabarre, A., Teixido, N. 2001. Effect of freeze drying and protective agents on viability of the biocontrol yeast Candida sake. Int. J. Food Microbiol, 65, 173-182.Search in Google Scholar

4. Bachmann, H., Pronk, J.T., Kleerebezem, M., and Teusink, B. 2015. Evolutionary engineering to enhance starter culture performance in food fermentations. Food Biotechnology, 32, 1-7.Search in Google Scholar

5. Blaine, J.W. 1971. Preparation and storage of lactic starter concentrates [J]. Dairy Science, 1971, 31(54), 755.Search in Google Scholar

6. Chen, J.L., Zhang, H.Y., Tian, F., Huo, G.C., Kang, H.B. 2014. The optimization and storage stability of freeze-drying protective agents about Lactic acid milk coccus butterfat subspecies [J]. Food Science, 11, 109-114.Search in Google Scholar

7. Choi, S.C., Kim, B.J., Rhee, P.L., et al. 2011. Probiotic fermented milk containing dietary fiber has additive effects in IBS with constipation compared to plain probiotic fermented milk. Gut Liver, 5(1), 22-28.Search in Google Scholar

8. Denkova R., Georgieva L., Denkova Z. 2014. Freeze-dried sourdough starters. Journal of Food and Packaging Science, Technique and Technologies, 4(1):74-80.Search in Google Scholar

9. Denkova R., Georgieva L., Denkova Z., Yanakieva V., Ilieva S. 2014. Highly active probiotic concentrates with long shelf life obtained using cryoprotectants of plant origin. Journal of Food and Packaging Science Technique and Technologies, 4: 66-70Search in Google Scholar

10. Fernandes, Â. et al. 2013. Effects of different processing technologies on chemical and antioxidant parameters of Macrolepiota procera wild mushroom. LWT-Food Science and Technology, 54, 493–499.Search in Google Scholar

11. Ferraretto, L.F., and Shaver, R.D. 2015. Effects of whole-plant corn silage hybrid type on intake, digestion, ruminal fermentation, and lactation performance by dairy cows through a meta-analysis. Journal of Dairy Science, 98(4), 2662-2675.10.3168/jds.2014-904525648819Search in Google Scholar

12. Gui, M.M., Zhang, X.W., Li, P.L. 2014. The preparation of meat starter squirrel bacteria staphylococcus SL4 freeze-dried powder [J]. Journal of China Agricultural University, 03, 180-187.Search in Google Scholar

13. Hughes, D.B., and Hoover, D.G. 1991. Bifidobacteria: Their potential for use in American dairy products. Food Technology, 45(4), 74–83.Search in Google Scholar

14. Hu, L.L. 2014. Lactobacillus casei high density cultivation and research of drying technology[D]. The University of YangZhou.Search in Google Scholar

15. Javorsky, J., Franchetti, M., and Zhang, H.Y. 2014. Determining the optimal parameters of bonding polyvinylchloride to stainless steel in automotive applications with the use of full factorial design of experiment. CIRP Journal of Manufacturing Science and Technology, 7, 151-158.Search in Google Scholar

16. Lei, H.J., Zheng, L.Y., Wang, C.X., and Zhao, H.F. 2013. Effects of worts treated with proteases on the assimilation of free amino acids and fermentation performance of lager yeast. International Journal of Food Microbiology, 161(2), 76-83.Search in Google Scholar

17. Liu, L., Yin, Y., Liu, X.G., and Qu, R.J. 2014. Design of an effective bifunctional catalyst organotriphosphonic acid-functionalized ferric alginate (ATMP-FA) and optimization by Box–Behnken model for biodiesel esterification synthesis of oleic acid over ATMP-FA. Bioresource Technology, 173, 266-271.10.1016/j.biortech.2014.09.08725310862Search in Google Scholar

18. Man, L.L., Xiang, D.D. 2010. The research progress of freeze-dried lactic acid bacteria [J]. Journal of Agricultural Products Processing. 6(3), 17-19. Millette, M., Luquet, F.M., and Lacroix, M. 2007. In vitrogrowth control of selected pathogens by Lactobacillus acidophilus and Lactobacillus casei fermented milk. Letters Appl. Microbiol. 44, 314-319.Search in Google Scholar

19. Mahdi, S., Shahabadi, S., and Reyhani, A. 2014. Optimization of operating conditions in ultrafiltration process for produced water treatment via the full factorial design methodology. Separation and Purification Technology, 132, 50-61.Search in Google Scholar

20. Meng, X.C., Stanton, C., Fitzgerald, G.F. 2008. Anhydrobiotics: The challenges of drying probiotic cultures. Food Chemistry, 106, 1406-1416.Search in Google Scholar

21. O’Sullivan, M.G., Thornton, G., O’Sullivan, G.C., a Collins, J.K. 1992. Probiotic bacteria: myth or reality. Trends in Food Science and Technology, 3, 309–314.Search in Google Scholar

22. Roosta, M., Ghaedi, M., and Daneshfar, A. 2014. Optimisation of ultrasound-assisted reverse micelles dispersive liquid–liquid micro-extraction by Box–Behnken design for determination of acetoin in butter followed by high performance liquid chromatography. Food Chemistry, 161, 120-126.10.1016/j.foodchem.2014.03.04324837929Search in Google Scholar

23. Rybka, S., Kailasapathy. 1995. The survival of culture bacteria in fresh and freeze-dried AB yoghurts. The Australian Journal of Dairy Technology, 50(2), 51–57.Search in Google Scholar

24. Sheil, B., Shanahan F., O’Mahony L. 2007. Probiotic effects on inflammatory bowel disease. J. Nutr. 137, 819S-824S.10.1093/jn/137.3.819S17311981Search in Google Scholar

25. Surono, I. and Hosono, A. 2002. Starter Cultures. Shinsyu University, Nagano-Ken, Japan, Elsevier Science Ltd.Search in Google Scholar

26. Shan, L.J., Tian, H.T., Jia, Y.M. 2002. The discussion of several key technical problems in the preparation of concentrated lactic acid bacteria starter [J]. China Dairy Industry, 30(5), 66-69.Search in Google Scholar

27. Shahabadi, S.M.S., and Reyhani, A. 2014. Optimization of operating conditions in ultrafiltration process for produced water treatment via the full factorial design methodology. Separation and Purification Technology, 132, 50-61.Search in Google Scholar

28. Tabbers, M.M., de Milliano, I., Roseboom, M.G. 2011. Is bifidobacterium breve effective in the treatment of childhood constipation results from a pilot study. Nutr. J., 2(23), 10-1910.1186/1475-2891-10-19304851821345213Search in Google Scholar

29. Wang, J., Sui, X., and Jiang, T.M. 2007. The study on the concentration of direct-vat-set (DVS) probiotics cells. Food Science and Technology, 28(11), 73-75.Search in Google Scholar

30. Yi, X.S., Shi, W.X., Yu, S.L., Li, X.H., Sun, N., and He, C. 2011. Factorial design applied to flux decline of anionic polyacrylamide removal from water by modified polyvinylidene fluoride ultrafiltration membranes. Desalination, 274, 7-12.Search in Google Scholar

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