References
- Anilkumar AV, Lacik I, Wang TG. 2001. A novel reactor for making uniform capsules. Biotechnol Bioeng 75:581–589.
- Berger RG. 2009. Biotechnology of flavours – the next generation. Biotechnol Lett 31:1651–1659.
- Berger RG, Krings U. 2014Fermentation (Industrial)/Production of colors and flavors. In: Batt CA, Patel P, eds. Encyclopedia of food microbiology, 2nd edn. London, UK: Elsevier Science & Technology Books, Academic Press. pp. 785–791.
- Bertokova A, Bertok T, Filip J, Tkac J. 2015. Gluconobacter sp. cells for manufacturing of effective electrochemical biosensors and biofuel cells. Chem Papers 69:27–41.
- Bučko M, Vikartovská A, Lacík I, Kolláriková G, Gemeiner P, Pätoprstý V, Brygin M. 2005. Immobilization of a whole-cell epoxide-hydrolyzing biocatalyst in sodium alginate-cellulose sulfate-poly(methylene-co-guanidine) capsules using a controlled encapsulation process. Enzyme Microb Technol 36: 118–126.
- Bučko M, Mislovičová D, Nahálka J, Vikartovská A, Šefčovičová J, Katrlík J, Tkáč J, Gemeiner P, Lacík I, Štefuca V, Polakovič M, Rosenberg M, Rebroš M, Šmogrovičová D, Švitel J. 2012. Immobilization in biotechnology and biorecognition: from macro- to nanoscale systems. Chem Pap 66:983–998.
- Buchholz K, Kasche V, Bornscheuer UT. 2005. Biocatalysts and enzyme technology. Weinheim: Wiley-VCH Verlag GmbH & Co. KGaA.
- Celik D, Bayraktar E, Mehmetoglu U. 2002. Biotransformation of 2-phenylethanol to phenylacetaldehyde in a two-phase fed-batch system. Biochem Eng J 17:5–13.
- Chorvat D, Chorvatova A. 2009. Multi-wavelength fluorescence lifetime spectroscopy? A new approach to the study of endogenous fluorescence in living cells and tissues. Laser Phys Lett 6:175–193.
- Deppenmeier U, Ehrenreich A. 2009. Physiology of acetic acid bacteria on light of the genome sequence of Gluconobacter oxydans. J Mol Microbiol Biotechnol!6:69–80.
- Gandolfi R, Cavenago K, Gaulandris R, Gago JVS, Molinari F. 2004. Production of 2-phenylacetic acid and phenylacetaldehyde by oxidation of 2-phenylethanol with free immobilized cells of Acetobacter aceti. Process Biochem 39:747–751.
- Gonzales A. 2005 Application of molecular techniques for identification of acetic acid bacteria. Dissertation; University of Rovira I Virgili, Tarragona, Spain.
- Greenfield S, Clause GW. 1972. Non-functional tricarboxic acid cycle and the mechanism of glutamate biosynthesis in Acetobacter suboxydans. J Bacteriol 112:1295–1301.
- Krajewski V, Simic P, Mouncey NJ, Briger S, Sahm H, Bott M. 2010Metabolic engineering of Gluconobacter oxydans for improved growth rate and growth yield on glucose by elimination of gluconate formation. Appl Environ Microbiol 76: 4369–4376.
- Kurillová Ľ, Gemeiner P, Vikartovská A, Miková H, Rosenberg M, Ilavský M. 2000. Calcium pectate gel beads for cell entrapment. 6. Morphology of stabilized and hardened calcium pectate gel beads with cells for immobilized biotechnology. J Microencapsul 17:279–296.
- Lacík I. Polymer chemistry in diabetes treatment by encapsulated islets of Langerhans: Review to 2006. Austr J Chem 59: 508–524.
- Molinari F, Gandolfi R, Aragozzini F, Leon R, Prazeres DMF. 1999. Biotransformations in two-liquid-phase systems: Production of phenylacetaldehyde by oxidation of 2-phenylethanol with acetic acid bacteria. Enzyme Microb Technol 25: 729–735.
- Neděla V. 2010. Controlled dehydration of a biological sample using an alternative form of environmental SEM. J Microsc 237:7–11.
- Neděla V, Konvalina I, Lencová B, Zlámal J. 2011Comparison of calculated, simulated and measured signal amplification in a variable pressure SEM. Nucl Instrum Meth A 645:79–83.
- Prust C, Hoffmeister M, Liesegang H, Wiezer A, Fricke WF, Ehrenreich A, Gottschalk G, Doppenmeier U. 2005. Complete genome sequence of the acetic acid bacterium Gluconobacter oxydans. Nat Biotechnol 23:195.
- Schenkmayerová A, Bučko M, Gemeiner P, Chorvát D Jr, Lacík I. 2012. Viability of free and encapsulated Escherichia coli overexpressing cyclopentanone monooxygenase monitored during model Baeyer–Villiger biooxidation by confocal laser scanning microscopy. Biotechnol Lett 34:309–314.
- Schenkmayerová A, Bučko M, Gemeiner P, Treľová D, Lacík I, Chorvát D Jr, Ačai P, Polakovič M, Lipták L, Rebroš M, Rosenberg M, Štefuca V, Neděla V, Tihlaříková E. 2014. Physical and bioengineering properties of polyvinyl alcohol lens-shaped particles versus spherical polyelectrolyte complex microcapsules as immobilization matrices for a whole-cell Baeyer-Villiger monooxygenase. Appl Biochem Biotechnol 174:1834–1849.
- Schenkmayerová A, Bertóková A, Šefčovičová J, Štefuca V, Bučko M, Vikartovská A, Gemeiner P, Tkáč J, Katrlík J. 2015. Whole-cell Gluconobacter oxydans biosensor for 2-pheny- lethanol biooxidation monitoring. Anal Chim Acta 854: 140–144.
- Silberbach M, Maier B, Zimmermann M, Büchs J. 2003. Glucose oxidation by Gluconobacter oxydans: characterization in shaking-flasks, scale-up and optimisation of the pH profile. Appl Microbiol Biotechnol 62:92–98.
- Svitel J, Sturdik E. 1995. n-Propanol conversion to propionic acid by Gluconobacter oxydans. Enzyme Microb Technol 17:546–550.
- Tihlaříková E, Neděla V, Shiojiri M. 2013. In Situ study of live specimens in an environmental scanning electron microscope. Microsc Microanal 19:914–918.
- Villa R, Romano A, Gandolfi R, Gabo JVS, Molinari F. 2002. Chemoselective oxidation of primary alcohols to aldehydes with Gluconobacter oxydans. Tetrahedron Lett 43:6059–6061.
- Wang Q, Song Y, Jin Y, Liu H, Zhang H, Sun Y, Liu G. 2013. Biosynthesis of 2-phenylethanol using tobacco waste as feedstock. Biocatal Biotransfor 31:292–298.
- Wu J, Wang JL, Li MH, Lin JP, Wei DZ. 2012. Optimization of immobilization for selective oxidation of benzyl alcohol Gluconobacter oxydans using response surface methodology. Bioresour Technol 101:8936–8941.
- Wu X, Wang X, Lu W. 2014. Genome-scale reconstruction of a metabolic network for Gluconobacter oxydans 621H. BioSystems 117:10–14.