References
- Badr HR, Toledo R, Hamdy MK. Continuous acetone-ethanol-butanol fermentation by immobilized cells of Clostridium acetobutylicum. Biomass Bioenerg, 2001;20:119–32
- Byrd W, De Lorimier A, Zheng ZR, Cassels, FJ. Microencapsulated subunit vaccine approach to enterotoxigenic Escherichia coli and other mucosal pathogens. Adv Drug Deliver Rev, 2005;57:1362–80
- Campos-Fernández J, Arnal JM, Gómez J, Dorado MP. A comparison of performance of higher alcohols/diesel fuel blends in a diesel engine. Appl Energ, 2012;95:267–75
- Chauvatcharin S, Siripatana C, Seki T, Takagi M, Yoshida T. Metabolism analysis and on-line physiological state diagnosis of acetone-butanol fermentation. Biotechnol Bioeng, 1998;58:561–71
- Christenson L, Dionne K, Lysaught M. 1993. Biomedical application of immobilized cells. In: Goosen MFA, ed. Fundamentals of animal cell encapsulation and immobilization. Florida: CRC Press, pp. 7–41
- Ding WK, Shah NP. An improved method of microencapsulation of probiotic bacteria for their stability in acidic and bile conditions during storage. J Food Sci, 2009;74:M53–61
- Doleyres Y, Paquin C, LeRoy M, Lacroix C. Bifidobacterium longum ATCC 15707 cell production during free- and immobilized-cell cultures in MRS-whey permeate medium. Appl Microbiol Biotechnol, 2002;60:168–73
- Durre P. New insights and novel developments in clostridial acetone/butanol/isopropanol fermentation. Appl Microbiol Biotechnol, 1998;49:639–48
- Durre P. Biobutanol: An attractive biofuel. Biotechnol J, 2007;2:1525–34
- Fontana R, Pistone G, Rogantin MP. Classification of two-level factorial fractions. J Stat Plan Inf, 2000;87:149–72
- Friedl A, Qureshi N, Maddox IS. Continuous acetone-butanol-ethanol (ABE) fermentation using immobilized cells of Clostridium acetobutylicum in a packed bed reactor and integration with product removal by pervaporation. Biotechnol Bioeng, 1991;38:518–27
- Gentile FT, Doherty EJ, Rein DH, Shoichet MS, Winn SR. Polymer science for macroencapsulation of cells for central nervous system transplantation. React Polym, 1995;25:207–27
- Häggström L, Molin N. Calcium alginate immobilized cells of Clostridium acetobutylicum for solvent production. Biotechnol Lett, 1980;2:241–6
- Heidebach T, Först P, Kulozik U. Microencapsulation of probiotic cells for food applications. Crit Rev Food Sci Nutr, 2012;52:291–11
- Heiskanen H, Denifl P, Pitkänen P, Hurme M. Effect of concentration and temperature on the properties of the microspheres prepared using an emulsion–solvent extraction process. Adv Powder Technol, 2012;23:779–86
- Huang WC, Ramey DE, Yang ST. Continuous production of butanol by Clostridium acetobutylicum immobilized in a fibrous bed bioreactor. Appl Biochem Biotechnol, 2004;113–116:887–98
- Huang H, Liu H, Gan YR. Genetic modification of critical enzymes and involved genes in butanol biosynthesis from biomass. Biotechnol Adv, 2010;28:651–7
- John RP, Tyagi RD, Brar SK, Surampalli RY, Prévost D. Bio-encapsulation of microbial cells for targeted agricultural delivery. Crit Rev Biotechnol, 2011;31:211–26
- Labbé RG, Remi Shih NJ. 1997. Physiology of sporulation of clostridia. In: Julian IR, Bruce AM, Songer JG, Richard W, Titball JI, Rood BA, Richard WT, eds. The clostridia. San Diego: Academic Press, pp. 21–32
- Lee SY, Park JH, Jang SH, Nielsen LK, Kim J, Jung KS. Fermentative butanol production by clostridia. Biotechnol Bioeng, 2008;101:209–28
- Lienhardt J, Schripsema J, Qureshi N, Blaschek HP. 2002. Butanol production by Clostridium beijerinckii BA101 in an immobilized cell biofilm reactor. In: Mark F, McMillan JD, Davison BH, eds. Biotechnology for fuels and chemicals. New York: Humana Press, pp. 591–8
- Lim LY, Wan LSC, Thai PY. Chitosan microspheres prepared by emulsification and ionotropic gelation. Drug Dev Ind Pharm, 1997;23:981–5
- Long S, Jones DT, Woods DR. Initiation of solvent production, clostridial stage and endospore formation in Clostridium acetobutylicum P262. Appl Microbiol Biotechnol, 1984;20:256–61
- Lutke-Eversloh T, Bahl H. Metabolic engineering of Clostridium acetobutylicum: Recent advances to improve butanol production. Curr Opin Biotechnol, 2011;22:634–47
- McLoughlin AJ. 1994. Controlled release of immobilized cells as a strategy to regulate ecological competence of inocula. In: Fiechter A, ed. Biotechnics/Wastewater. Berlin: Springer, pp. 1–45
- Moslemy P, Neufeld RJ, Guiot SR. Biodegradation of gasoline by gellan gum-encapsulated bacterial cells. Biotechnol Bioeng, 2002;80:175–84
- Nasuno S, Asai T. Some environmental factors affecting sporulation in butanol and butyric acid bacteria. J Gen Appl Microbiol, 1960;6:71–82
- Núñez MJ, Lema JM. Cell immobilization: Application to alcohol production. Enzyme Microb Technol, 1987;9:642–51
- Park JK, Chang HN. Microencapsulation of microbial cells. Biotechnol Adv, 2000;18:303–19
- Pilkington PH, Margaritis A, Mensour NA. Mass transfer characteristics of immobilized cells used in fermentation processes. Crit Rev Biotechnol, 1998;18:237–55
- Prüβe U, Bruske F, Breford J, Vorlop KD. Improvement of the jet cutting method for the preparation of spherical particles from viscous polymer solutions. Chem Eng Technol, 1998;21:153–7
- Qureshi N, Maddox IS. Continuous solvent production from whey permeate using cells of Clostridium acetobutylicum immobilized by adsorption onto bonechar. Enzyme Microb Technol, 1987;9:668–71
- Qureshi N, Schripsema J, Lienhardt J, Blaschek HP. Continuous solvent production by Clostridium beijerinckii BA101 immobilized by adsorption onto brick. World J Microb Biotechnol, 2000;16:377–82
- Qureshi N, Lai LL, Blaschek HP. Scale-up of a high productivity continuous biofilm reactor to produce butanol by adsorbed cells of Clostridium beijerinckii. Food Bioprod Process, 2004;82:164–73
- Rabanel JM, Banquy X, Zouaoui H, Mokhtar M, Hildgen P. Progress technology in microencapsulation methods for cell therapy. Biotechnol Progr, 2009;25:946–63
- Silva CM, Ribeiro AJ, Figueiredo IV, Gonçalves AR, Veiga F. Alginate microspheres prepared by internal gelation: Development and effect on insulin stability. Int J Pharm, 2006;311:1–10
- Survase, SA, Annapure US, Singhal RS. Gellan gum as immobilization matrix for production of cyclosporin. J Microbiol Biotechnol, 2010;20:1086–91
- Syed Q, Nadeem M, Nelofer R. Enhanced butanol production by mutant strains of Clostridium acetobutylicum in molasses medium. Turkish J Biochem, 2008;33:25–30
- Tan SM, Heng PWS, Chan LW. Development of re-usable yeast-gellan gum micro-bioreactors for potential application in continuous fermentation to produce bio-ethanol. Pharm, 2011;3:731–44
- Tripathi A, Sami H, Jain SR, Viloria-Cols M, Zhuravleva N, Nilsson G, Jungvid H, Kumar A. Improved bio-catalytic conversion by novel immobilization process using cryogel beads to increase solvent production. Enzyme Microb Technol, 2010;47:44–51
- Uludag H, De Vos P, Tresco PA. Technology of mammalian cell encapsulation. Adv Drug Deliver Rev, 2000;42:29–64
- Wan LSC, Heng PWS, Chan LW. Drug encapsulation in alginate microspheres by emulsification. J Microencapsul, 1992;9:309–16
- Yang YY, Chung TS, Bai XL, Chan WK. Effect of preparation conditions on morphology and release profiles of biodegradable polymeric microspheres containing protein fabricated by double-emulsion method. Chem Eng Sci, 2000;55:2223–36
- Yang YY, Chung TS, Ping Ng N. Morphology, drug distribution, and in vitro release profiles of biodegradable polymeric microspheres containing protein fabricated by double-emulsion solvent extraction/evaporation method. Biomaterials, 2001;22:231–41
- Yen HW, Li RJ, Ma TW. The development process for a continuous acetone–butanol–ethanol (ABE) fermentation by immobilized Clostridium acetobutylicum. J Taiwan Inst Chem E, 2011;42:902–7
- Zheng YN, Li LZ, Xian M, Ma YJ, Yang JM, Xu X, He DZ. Problems with the microbial production of butanol. J Industrial Microbiol Biotechnol, 2009;36:1127–38