Pilot Production of Bacterial Cellulose by Gluconacetobacter hansenii TL-2C
|
|
Jeong, Ji-Suk
(Dept. of Food Science and Nutrition, Catholic University of Daegu)
Kim, Jong-Sun (Dept. of Food Science and Nutrition, Catholic University of Daegu) Choi, Kyoung-Ho (Dept. of Food Science and Nutrition, Catholic University of Daegu) |
| 1 | Robert EC, Steven MA. 1991. Biogenesis of bacterial cellulose. Microbiol 17: 435-447 |
| 2 | Embuscado ME, Marks JS, BeMiler JN. 1994. Bacterial cellulose. II. Optimization of cellulose production by Acetobacter xylinum through response surface methodology. Food Hydrocoll 8: 419-430 DOI ScienceOn |
| 3 | Sutherlan IW. 1998. Novel and established applications of microbial polysaccharides. Tibtecg 16: 41-46 DOI ScienceOn |
| 4 | Klemm D, Schumann D, Udhardt U, Marsch S. 2001. Bacterial synthesized cellulose-artificial blood vessels for microsurgery. Prog Polym Sci 26: 1561-1603 DOI ScienceOn |
| 5 | Yoshinaga F, Tonouchi N, Watanabe K. 1997. Research progress in production of bacterial cellulose by aeration and agitation culture and its application as a new industrial material. Biosci Biotech Biochem 61: 219-224 DOI ScienceOn |
| 6 | Malbasa RV, Loncar ES, Kolarov LJ. 2001. Sucrose and inulin balance during tea fungus fermentation. Roum Biotechnol Lett 7: 573-576 |
| 7 | Fontana JD, De Souza AM, Fontana CK, Torriani IL, Moresch JC, Gallotti BJ. 1990. Acetobacter cellulose pellicle as a temporary skin substitute. Appl Biochem Biotechnol 24: 253-264 DOI |
| 8 | Choi MA, Kim JO, Choi KH. 1996. Effects of saccharides and incubation temperature on pH and total acidity of fermented black tea with tea fungus. Korean J Food Sci Technol 28: 405-410 과학기술학회마을 |
| 9 | Park ST, Song TS, Kim YM. 1999. Effect of gluconic acid on the production of cellulose in Acetobacter xylinum BRC5. Korean J Microbiol Biotechnol 9: 683-686 과학기술학회마을 |
| 10 | Lee Y, Howard LR, Villalon B. 1995. Flavonoids and antioxidant activity of fresh peppers (Capsicum annuaum) cultivars. J Food Sci 60: 473-476 DOI ScienceOn |
| 11 | Krystynowicz A, Czaja W, Wiktorowska-Jezierska A, Goncalves-Miskiewicz M, Turkiewicz M, Bielecki S. 2002. Factors affecting the yield and properties of bacterial cellulose. J Ind Microbiol Biotechnol 29: 189-195 DOI ScienceOn |
| 12 | Bok SH, Lee SH, Park YB, Bae KH, Son KH, Jeong TS, Choi MS. 1999. Plasma and hepatic cholesterol and hepatic activities of 3-hydroxy-3-methyl-glutaryl CoA reductase and acyl CoA:cholesterol transferase are lower in rat fed citrus peel extract or a mixture of citrus bioflavonoids. J Nutr 129: 1182-1185 |
| 13 | Jia SR, Ou HY, Chen GB, Choi DB, Cho KA, Mitsuyasu O, Cha WS. 2004. Cellulose production from Gluconobacter oxydans TQ-B2. Biotechnol Bioprocess Engineering 9: 166-170 과학기술학회마을 DOI ScienceOn |
| 14 | Choi KH, Jeong JS, Moon CH, Kim ML. 2004. Optimization of culture condition of Gluconacetobacter hansenii TF-2 for cellulose gel fermentation. J Korean Soc Food Sci Nutr 33: 176-181 과학기술학회마을 DOI ScienceOn |
| 15 | Lee OS, Jang SY, Jeong YJ. 2003. Effect of ethanol on the production of cellulose and acetic acid by Gluconacetobacter persimmonensis KJ145. J Korean Soc Food Sci Nutr 32: 181-184 과학기술학회마을 DOI ScienceOn |
| 16 | Ko JY, Shin KS, Yoon BD, Choi WY. 2000. Isolation and identification of Acetobacter xylinum GS11 producing cellulose. Korean J Appl Microbiol Biotechnol 28: 139-146 과학기술학회마을 |
| 17 | Cha YJ, Park KJ, Kim DK, Chun HS, Lee BK, Kim KH, Lee SK, Kim SJ. 1994. Isolation and characterization of cellulose producing Acetobacter xylinum KI strain. Korean J Appl Microbiol Biotechnol 22: 571-576 과학기술학회마을 |
| 18 | Ko JY, Shin KS, Lee JS, Choi WY. 2002. Production of bacterial cellulose by Acetobacter xylinum GS11. Korean J Appl Microbiol Biotechnol 30: 57-62 과학기술학회마을 |
| 19 | Lee HC, Zhao X. 1996. The optimal medium composition for the production of microbial cellulose by Acetobacter xylinum. Korean J Biotechnol Bioeng 11: 550-556 과학기술학회마을 |
| 20 | Benziman M, Haigler CH, Brown Jr RM, White AR, Cooper KM. 1980. Cellulose biogenesis: polymerization and crystallization are coupled processes in Acetobacter xylinum. Proc Natl Acad Sci USA 77: 6678-6682 DOI ScienceOn |
| 21 | Chung Y, Shyu Y. 1999. The effect of pH, salt, heating and freezing on the physical properties of bacterial cellulose-nata. International J Food Sci Technol 34: 23-26 DOI ScienceOn |
| 22 | Vandamme EJ, Baets SD, Vanbaelen A, Joris K, Wulf PD. 1998. Improved production of bacterial cellulose and its application potential. Polym Degrad Stab 59: 93-99 DOI ScienceOn |
| 23 | Greenwalt CJ, Ledford RA, Steinkraus KH. 1998. Determination and charaterization of the antimicrobial activity of the fermented tea kombucha. Lebensm-Wiss u-Technol 31: 291-296 DOI ScienceOn |
| 24 | Teoh AL, Heard C, Cox J. 2004. Yeast ecology of kombucha fermentation. Int J Food Microbiol 95: 119-126 DOI ScienceOn |
| 25 | Pandey LK, Saxena C, Dubey V. 2004. Studies on pervaporative characteristics of bacterial cellulose membrane. Sep Pur Technol 42: 213-218 DOI ScienceOn |
| 26 | Nakagaito AN, Iwamoto S, Yano H. 2005. Bacterial cellulose: the ultimate nano-scalar cellulose morphology for the production of high-strength composites. Appl Phys A 80: 93-97 DOI |
| 27 | Sony corp. 1994. Acoustic Diaphragm and its production. Japan Patent 1993082107 |
| 28 | Agency of Ind Science & Technol, Ajinomoto coinc, Sony corp. 1987. Bacterial cellulose-containing molding material having high mechanical strength. Japan Patent 1986085021 |
| 29 | Matthysee AG, Holmes KV, Gurlits HG. 1981. Elaboration of cellulose fibrils by Agrobacterium tumefaciens during attachment to carrot cell. J Bacteriol 145: 583-595 |
| 30 | Brown AJ. 1886. An acetic ferment which forms cellulose. J Chem Soc 49: 432-439 DOI |
| 31 | Bae SO, Sugano Y, Ohi K, Shoda M. 2004. Features of bacterial cellulose synthesis in a mutant generated by disruption of the diguanylate cyclase 1 gene of Acetobacter xylinum BPR 2001. Apple Microbiol Biotechnol 65: 315- 322 DOI |
| 32 | Cho SH, Lee JY, Choi YS, Choi KH. 2002. Dietary effects of fiber produced from Gluconoacetobacter hansenii on digestive tract and lipid metabolism in rats. J Korean Soc Food Sci Nutr 31: 802-807 과학기술학회마을 DOI ScienceOn |
| 33 | Chung BW, Kim CY, Kang SK, Park BN. 1998. Characteristics of Korean traditional paper containing bacterial cellulose. The Research of Industrial Technology Institute, Chonbuk National University 29: 47-51 |
| 34 | Backdahl H, Helenius G, Bodin A, Nannmark U, Johansson BR, Risberg B, Gatenholm P. 2006. Mechanical properties of bacterial cellulose and interactions with smooth muscle cells. Biomaterials 27: 2141-2149 DOI ScienceOn |
| 35 | TED Case Studies. 2002. Nata de coco boom and the Philippines. BPI report. Philippines |
| 36 | Pszezola DE. 1997. High technology taking ingredients to a new evel. Food Technol 51: 79-80 |
| 37 | Choi MA, Choi KH, Kim JO. 1996. Microflora occurring in the fermentation by tea fungus. Korean J Life Science 6: 56-65 과학기술학회마을 |
| 38 | Lee SP, Kim CS. 2000. Characterization of kombucha beverages fermented with various teas and tea fungus. Korean J Food Sci Nutr 5: 165-169 과학기술학회마을 |
| 39 | Lee OS, Jang SY, Jeong YJ. 2002. Culture conditions for the production of bacterial cellulose with Gluconacetobacter persimmonus KJ145. J Korean Soc Food Sci Nutr 31: 572-577 과학기술학회마을 DOI ScienceOn |
| 40 | Kojima Y, Seto A, Tonouchi N, Tauchida T, Yoshinaga F. 1997. High rate production of bacterial cellulose in static culture strain. Biosci Biotech Biochem 61: 1585-1586 DOI ScienceOn |
| 41 | Ishikawa A, Matsuoka M, Tsuchida T, Yoshinaga F. 1995. Increase in cellulose production by sulfaguanidine-resistant mutants derived from Acetobacter xylinum subsp. sucrofermentans. Biosci Biotech Biochem 59: 2259-2262 DOI |
| 42 | Toda K, Asakura T, Fukaya M, Entani E, Kawamura Y. 1997. Cellulose production by acetic acid-resistant Acetobacter xylinum. J Ferment Bioeng 84: 228-231 DOI ScienceOn |
| 43 | Park SH, Yang YK, Hang W, Lee CS, Pyun YR. 1997. Microbial cellulose fermentation by Acetobacter xylinum BRC5. Kor J Appl Microbiol Biotechnol 25: 598-605 과학기술학회마을 |
| 44 | Ko JY, Shin KS, Yoon BD, Choi WY. 2000. Isolation and identification of Acetobacter xylinum CS11 producing cellulose. Kor J Appl Microbiol Biotechnol 28: 139-146 |
| 45 |
Jang SY, Jeong YJ. 2005. Effect of lactate and corn steep liquor on the production of bacterial cellulose by Gluconacetobacter persimmonis |
| 46 | 통계청. 2005. 감귤/시도별 생산량 통계자료 |
| 47 | Chung SK, Kim SH, Choi YH, Song EY, Kim SH. 2000. Status of citrus fruit production and view of utilization in Cheju. Food Industry and Nutrition 5: 42-52 과학기술학회마을 |
| 48 | Kana I, Tojiro T, Yoko T, Nobuji N, Junji T. 1995. Antioxidative activity of quercetin and quercetin monoglucosides in solution and phospholipid bilayers. Bioch Biophy Acta 1234: 99-104 DOI ScienceOn |
| 49 | Marie HS, Jole L, Marie C, Canivenc L, Patrick R, Marc S. 1995. Heterogenous effects of natural flavonoids on monoxygenase activites in human and rat liver microsomes. Toxicol Appl Pharmacol 130: 73-78 DOI ScienceOn |
| 50 | Son HS, Kim HS, Kwon TB, Ju JS. 1992. Isolation purification and hypotensive effects of bioflavonoids in citrus sinensis. J Korean Soc Food Nutr 21: 136-142 과학기술학회마을 |
| 51 | Park GS, An SH, Choi KH, Jeong JS, Park CS, Choi MA. 2000. Preparation of the functional beverages by fermentation and its sensory characteristics. Korean J Soc Food Sci 16: 663-669 과학기술학회마을 |
| 52 | Koh JB. 2000. Effect of tea fungus / kombucha beverage on serum and liver lipids metabolism in rats. Korean J Nutrition 33: 497-501 과학기술학회마을 |
| 53 | Koh JB, Choi MA. 1999. Effect of tea fungus / kombucha beverage on lipid metabolism in streptozotocin-induced diabetic male rats. J Korean Soc Food Sci Nutr 28: 613-618 과학기술학회마을 |
| 54 | Yang JO, Kim JO, Choi MA. 1997. The effects of consumption of tea fungus drink on the human blood composition. Sociol Sport J 36: 1234-1242 |
| 55 | Choi KH, Jeong JS, Moon CH, Kim ML. 2004. Effect of carbon source supplement on the gel production from citrus juice by Gluconacetobacter hansenii TL-2C. J Korean Soc Food Sci Nutr 33: 170-175 과학기술학회마을 DOI ScienceOn |
| 56 | Park EJ. 2002. Isolation of pellicle producing bacterium in fermentation system by tea fungus and establishment of the optimum medium composition for gel production. MS Thesis. Catholic University of Daegu |
| 57 | AOAC. 1980. Official Methods of Analysis. 13th ed. Association of Official Analytical Chemists, Washington DC. p 180 |
| 58 | Kim ML, Choi KH. 2005. Sensory characteristics of citrus vinegar fermented by Gluconacetobacter hansenii CV1. Korean J Food & Cookery Science 21: 243-249 과학기술학회마을 |
| 59 | Naritomi T, Kouda T, Yano H, Uoshinaga F. 1998. Effect of ethanol on bacterial cellulose production from fructose in continuous culture. J Fermen Bioeng 85: 598-602 DOI ScienceOn |
| 60 | Son HJ, Lee OM, Kim GK, Park YK, Lee SJ. 2000. Characteristics of cellulose production by Acetobacter sp. A9 in static culture. Korean J Biotechnol Bioeng 15: 573-577 과학기술학회마을 |
| 61 | Krystynowicz A, Czaja W, Wiktorowska-Jezieierska A, Goncalves-Miskiewicz M, Turkiewicz M, Bielecki S. 2002. Factors affecting the yield and properties of bacterial cellulose. J Ind Microbiol Biotechnol 29: 189-195 DOI ScienceOn |
| 62 | Kim KH. 2002. Pellicle properties biosynthesized tea fungus fermentation system. PhD Dissertation. Catholic University of Daegu |
| 63 | Yang JO, Yoo CJ, Kim JO, Che ME. 1999. Utilization fermented tea-fungus beverage for the sports drink. Sociol Sport J 38: 277-293 |
 |
Korea Institute of Science and Technology Information
Gwahangno, Yuseong-gu, Daejeon, 305-806, Korea TEL : +82-42-869-1752
Copyright (c) 2009 KISTI. All Rights Reserved. For more information mail to
webmaster
