Immobilization of Microbial Cells in Food Fermentation Processes

The purpose of this review is to emphasize existing trends and recent advances in the application of immobilized cell technology so as to implement some innovations in food industry associated with processing, preservation, and storage of the products based on the food safety issues. Attention is focused on the engineering aspects of the immobilized cell techniques with emphasis on the mass-balance-based mathematical modeling of the system. Some aspects of models for safety, quality, and competitiveness of the food processing sector are also presented. Ultimately, development of products with novel properties within the alcoholic beverages, meat processing/preservation, manufacture of cheese and bread, sweeteners and pigments, as well as nutraceuticals is also addressed.

[1]  A. Laca,et al.  Analysis and description of the evolution of alginate immobilised cells systems. , 2000, Journal of biotechnology.

[2]  A. Koutinas,et al.  Low-temperature continuous wine making by kissiris-supported biocatalyst: volatile byproducts , 1993 .

[3]  Ken K. Y. Wong,et al.  Substrate hydrolysis by combinations of Trichoderma xylanases , 1999 .

[4]  R. Kunkee Some roles of malic acid in the malolactic fermentation in wine making , 1991 .

[5]  C. Webb,et al.  On the merits of viable-cell immobilisation. , 1991, Biotechnology advances.

[6]  F. Janky,et al.  Effect of immibilized yeasts on the quality of bottle-fermented sparkling wine , 1994 .

[7]  J. C. Carvalho,et al.  Antimicrobial and healing activity of kefir and kefiran extract. , 2005, International journal of antimicrobial agents.

[8]  Ibrahim M. Banat,et al.  Immobilization technologies and support materials suitable in alcohol beverages production: a review , 2004 .

[9]  Jen-Horng Tsen,et al.  Banana puree fermentation by Lactobacillus acidophilus immobilized in Ca-alginate. , 2003, The Journal of general and applied microbiology.

[10]  D. Poncelet,et al.  Immobilization of cells for application in the food industry. , 1994, Critical reviews in biotechnology.

[11]  J. Kennedy,et al.  Use of immobilised biocatalysts in the processing of cheese whey. , 2009, International journal of biological macromolecules.

[12]  Shangtian Yang,et al.  Kinetics and Stability of GM‐CSF Production by Recombinant Yeast Cells Immobilized in a Fibrous‐Bed Bioreactor , 1996, Biotechnology progress.

[13]  Channing R. Robertson,et al.  The immobilization of whole cells: Engineering principles , 1985 .

[14]  A. Koutinas,et al.  Thermally-dried free and immobilized kefir cells as starter culture in hard-type cheese production. , 2009, Bioresource technology.

[15]  C. Ghommidh,et al.  Acetic acid production by immobilized acetobacter cells , 1981, Biotechnology Letters.

[16]  Jen-Horng Tsen,et al.  Fermentation of banana media by using κ-carrageenan immobilized Lactobacillus acidophilus , 2004 .

[17]  J. Ogbonna Atomisation Techniques for Immobilisation of Cells in Micro Gel Beads , 2004 .

[18]  M. Komaitis,et al.  Wine production using yeast immobilized on quince biocatalyst at temperatures between 30 and 0 °C , 2003 .

[19]  M. Sernetz,et al.  A kinetic study on the enzymatic hydrolysis of fluorescein diacetate and fluorescein-di-beta-D-galactopyranoside. , 1983, Analytical biochemistry.

[20]  M S Thakur,et al.  Development of a biosensor for caffeine. , 2007, Analytica chimica acta.

[21]  W. G. Characklis,et al.  Dynamics of biofilm processes: methods , 1982 .

[22]  A. Ikai,et al.  Method for immobilizing microbial cells on gel surface for dynamic AFM studies. , 1995, Biophysical journal.

[23]  P. Washausen,et al.  Physical Characterization of Biocatalyst Particles Obtained from Polymer Entrapment of Whole Cells , 1980 .

[24]  M. Kanellaki,et al.  Effect of freeze-dried immobilized cells on delignified cellulosic material in low-temperature and ambient-temperature wine making , 2003, Applied biochemistry and biotechnology.

[25]  A. Krastanov,et al.  Sucrose conversion into palatinose with immobilized Serratia plymuthica cells in a hollow-fibre bioreactor , 2007 .

[26]  Yves F Dufrêne,et al.  Atomic force microscopy of microbial cells: application to nanomechanical properties, surface forces and molecular recognition forces. , 2007, Colloids and surfaces. B, Biointerfaces.

[27]  O. Jardetzky,et al.  Continuous-flow NMR culture system for mammalian cells. , 1982, Biochimica et biophysica acta.

[28]  Patrick A. Gerin,et al.  Direct Probing of the Surface Ultrastructure and Molecular Interactions of Dormant and Germinating Spores ofPhanerochaete chrysosporium , 1999, Journal of bacteriology.

[29]  D. Axelrod Cell-substrate contacts illuminated by total internal reflection fluorescence , 1981, The Journal of cell biology.

[30]  F. Mendoza,et al.  Classification of Potato Chips Using Pattern Recognition , 2006 .

[31]  D. Poncelet,et al.  Industrial Scale Encapsulation of Cells Using Emulsification/Dispersion Technologies , 2004 .

[32]  B. Lee,et al.  Immobilization of Cells and Enzymes for Fermented Dairy or Meat Products , 2010, ETFA 2010.

[33]  Crittenden Rg,et al.  Purification of food-grade oligosaccharides using immobilised cells of Zymomonas mobilis. , 2002 .

[34]  Athanasios A. Koutinas,et al.  Immobilization of yeast on delignified cellulosic material for room temperature and low-temperature wine making , 1994 .

[35]  Marin Berovic,et al.  Citric acid production. , 2007, Biotechnology annual review.

[36]  Karl Schügerl,et al.  Characterization and performance of single- and multistage tower reactors with outer loop for cell mass production , 1982 .

[37]  R. Cachon,et al.  Modeling of continuous Ph‐stat stirred tank reactor with Lactococcus lactis ssp. lactis bv. diacetylactis immobilized in calcium alginate gel beads , 1995, Biotechnology and bioengineering.

[38]  C. Heinzen,et al.  Use of Vibration Technology for Jet Break-Up for Encapsulation of Cells and Liquids in Monodisperse Microcapsules , 2004 .

[39]  A. Koutinas,et al.  Whey‐cheese production using freeze‐dried kefir culture as a starter , 2007, Journal of applied microbiology.

[40]  A. Bekatorou,et al.  Bread making using kefir grains as baker's yeast , 2005 .

[41]  M. Díaz,et al.  MODELLING AND DESCRIPTION OF INTERNAL PROFILES IN IMMOBILIZED CELLS SYSTEMS , 1998 .

[42]  Eugenios Katsanidis,et al.  Impact of physical and chemical pretreatments on texture of Octopus (Eledone moschata) , 2006 .

[43]  M. Yajima,et al.  Production of Bottle-Fermented Sparkling Wine Using Yeast Immobilized in Double-Layer Gel Beads or Strands , 1997, American Journal of Enology and Viticulture.

[44]  A. Haute,et al.  Influence of the type of organisms on the biomass hold-up in a fluidized-bed reactor , 2004, Applied Microbiology and Biotechnology.

[45]  Ray A. Goldberg,et al.  A concept of agribusiness , 1957 .

[46]  Jufang Wang,et al.  Production of Butyric Acid from Glucose and Xylose with Immobilized Cells of Clostridium tyrobutyricum in a Fibrous-bed Bioreactor , 2010, Applied biochemistry and biotechnology.

[47]  M. Komaitis,et al.  Wine fermentations by immobilized and free cells at different temperatures. Effect of immobilization and temperature on volatile by-products , 2003 .

[48]  J. Vuillemard,et al.  Food bioconversions and metabolite production using immobilized cell technology. , 1994, Critical reviews in biotechnology.

[49]  H. Kawaguti,et al.  Palatinose production by free and Ca-alginate gel immobilized cells of Erwinia sp. , 2007 .

[50]  Eva Balsa-Canto,et al.  Quality and Safety Models and Optimization as Part of Computer-Integrated Manufacturing , 2008 .

[51]  Pekka Linko,et al.  Applications of Immobilized Microbial Cells , 1983 .

[52]  Roger Horowitz,et al.  Food Chains: From Farmyard to Shopping Cart , 2009 .

[53]  Da-Wen Sun,et al.  Computational fluid dynamics (CFD) ¿ an effective and efficient design and analysis tool for the food industry: A review , 2006 .

[54]  T. Abee,et al.  Flavor formation and cell physiology during the production of alcohol-free beer with immobilized Saccharomyces cerevisiae , 1999 .

[55]  Bojana Obradovic,et al.  Investigations of cell immobilization in alginate : rheological and electrostatic extrusion studies , 2006 .

[56]  .. S.T.Ogunbanwo,et al.  Microbial and Sensory Changes During the Cold Storage of Chicken Meat Treated with Bacteriocin from L. brevis OG1 , 2006 .

[57]  Shane Hamilton,et al.  'Introduction' to a Special Issue on Food and Innovation , 2009 .

[58]  Yan Huang,et al.  A novel recycle batch immobilized cell bioreactor for propionate production from whey lactose , 1995, Biotechnology and bioengineering.

[59]  A. Margaritis,et al.  Airlift-driven fibrous-bed bioreactor for continuous production of glucoamylase using immobilized recombinant yeast cells. , 2009, Journal of biotechnology.

[60]  Ghasem D. Najafpour,et al.  Biochemical engineering and biotechnology , 2006 .

[61]  J. Nielsen,et al.  Control of Flavor Development in Wine during and after Malolactic Fermentation by Oenococcus oeni , 1999, Applied and Environmental Microbiology.

[62]  J. Lema,et al.  Enhancement of plasmid stability and enzymatic expression by immobilising recombinant Saccharomyces cerevisiae , 2000, Biotechnology Letters.

[63]  A. Bekatorou,et al.  Freeze-dried Saccharomyces cerevisiae cells immobilized on gluten pellets for glucose fermentation , 2001 .

[64]  J. Švitel,et al.  Modeling of saccharide utilization in primary beer fermentation with yeasts immobilized in calcium alginate , 2001, Applied biochemistry and biotechnology.

[65]  I. Chibata Production of Useful Chemicals Using Cells Immobilized with Polyacrylamide and Carrageenan , 1980 .

[66]  V. Beschkov,et al.  Lactic acid fermentation by cells of Lactobacillusrhamnosus immobilized in polyacrylamide gel , 2006 .

[67]  Abée,et al.  Influence of yeast immobilization on fermentation and aldehyde reduction during the production of alcohol-free beer. , 2000, Enzyme and microbial technology.

[68]  W. Vieth,et al.  Immobilized Microbial Cells in Complex Biocatalysis , 1979 .

[69]  Y. Dufrêne Atomic Force Microscopy of Microbial Cells , 2001 .

[70]  J. Klein,et al.  Immobilization of living whole cells in an epoxy matrix , 1982, Biotechnology Letters.

[71]  S. Yang,et al.  Acetate production from whey lactose using co-immobilized cells of homolactic and homoacetic bacteria in a fibrous-bed bioreactor. , 1998, Biotechnology and bioengineering.

[72]  M. Komaitis,et al.  Wine production using yeast immobilized on apple pieces at low and room temperatures. , 2001, Journal of agricultural and food chemistry.

[73]  R. Cachon,et al.  Theme 4: immobilized cell technology in wine production , 1994 .

[74]  H. C. van der Mei,et al.  Relations between macroscopic and microscopic adhesion of Streptococcus mitis strains to surfaces. , 2004, Microbiology.

[75]  N. Kossen,et al.  Gas Production by immobilized microoganisms: Theoretical approach , 1980 .

[76]  M. Komaitis,et al.  Grape skins as a natural support for yeast immobilization , 2002, Biotechnology Letters.

[77]  M. Kanellaki,et al.  Continuous wine fermentation using a psychrophilic yeast immobilized on apple cuts at different temperatures , 2002 .

[78]  A. Lonvaud-Funel Microbiology of the malolactic fermentation: Molecular aspects , 1995 .

[79]  García,et al.  Controlled malolactic fermentation in cider using Oenococcus oeni immobilized in alginate beads and comparison with free cell fermentation. , 2001, Enzyme and microbial technology.

[80]  Denis Flick,et al.  Modelling transport phenomena in refrigerated food bulks, packages and stacks: basics and advances , 2006 .

[81]  C. Champagne,et al.  Immobilized cells in meat fermentation. , 1994, Critical reviews in biotechnology.

[82]  J. Kennedy,et al.  Encapsulated Lactic Acid Bacteria for Control of Malolactic Fermentation in Wine , 2004, Artificial cells, blood substitutes, and immobilization biotechnology.

[83]  C. Webb,et al.  Practical reactor systems for yeast cell immobilization using biomass support particles , 1984, Biotechnology and bioengineering.

[84]  M. Kanellaki,et al.  Kissiris-Supported Yeast Cells: High Biocatalytic Stability and Productivity Improvement by Successive Preservations at 0 °C , 1996 .

[85]  U. Spiekermann Twentieth-Century Product Innovations in the German Food Industry , 2009, Business History Review.

[86]  K. Venkatasubramanian,et al.  Chemical Engineering Analysis of Immobilized-Cell Systems , 1983 .

[87]  S Furusaki,et al.  Mathematical Model for Analysis of Mass Transfer for Immobilized Cells in Lactic Acid Fermentation , 1995, Biotechnology progress.

[88]  V. Křen,et al.  Secondary metabolites of the fungusMonascus: A review , 1996, Journal of Industrial Microbiology.

[89]  Q. Ye,et al.  Effects of geometrical design on hydrodynamic and mass transfer characteristics of a rectangular-column airlift bioreactor , 2007 .

[90]  L. Selbmann,et al.  Repeated-batch production of pigments by immobilised Monascus purpureus. , 2000, Journal of biotechnology.

[91]  J. Mokyr Why “More Work for Mother?” Knowledge and Household Behavior, 1870–1945 , 2000, The Journal of Economic History.

[92]  A. Anilkumar,et al.  A novel reactor for making uniform capsules. , 2001, Biotechnology and bioengineering.

[93]  M. Komaitis,et al.  Continuous wine making by γ-alumina-supported biocatalyst , 2000 .

[94]  Franco Pedreschi,et al.  A non-destructive digital imaging method to predict immobilized yeast-biomass , 2009 .

[95]  H. Monbouquette,et al.  Immobilized cell biocatalyst activation and pseudo‐steady‐state behavior: Model and experiment , 1990, Biotechnology and bioengineering.

[96]  H. Chang,et al.  Microencapsulation of microbial cells. , 2000, Biotechnology advances.

[97]  Ferda Mavituna,et al.  Biochemical engineering and biotechnology handbook , 1982 .

[98]  J. Sebranek,et al.  Carrageenans and their use in meat products. , 1996, Critical reviews in food science and nutrition.

[99]  M. Kanellaki,et al.  ROOM AND LOW TEMPERATURE BREWING WITH YEAST IMMOBILIZED ON GLUTEN PELLETS , 1997 .

[100]  C. Hsu,et al.  Effects of surface characteristics and xanthan polymers on the immobilization of Xanthomonas campestris to fibrous matrices , 2006 .

[101]  Roger P. Nelson,et al.  Immobilized microbial cells , 1983 .

[102]  M. D. Fumi,et al.  Bulk sparkling wine production by external encapsulated yeast bioreactor , 1989, Biotechnology Letters.

[103]  N. Kossen,et al.  Gas production by immobilized microorganisms: Calculation of theoretical maximum productivity , 1981 .

[104]  M. Theron,et al.  Organic Acids and Meat Preservation: A Review , 2007 .

[105]  D. Poncelet,et al.  Comparison of different technologies for alginate beads production , 2008 .

[106]  M. Kanellaki,et al.  High-temperature alcoholic fermentation of whey using Kluyveromyces marxianus IMB3 yeast immobilized on delignified cellulosic material. , 2002, Bioresource technology.

[107]  A. Bekatorou,et al.  Use of immobilized cell biocatalysts in baking , 2007 .

[108]  E. Chan,et al.  Prediction models for shape and size of ca-alginate macrobeads produced through extrusion-dripping method. , 2009, Journal of colloid and interface science.

[109]  J. Pandey,et al.  Enhanced Production of High-Quality Biomass, δ-Aminolevulinic Acid, Bilipigments, and Antioxidant Capacity of a Food Alga Nostochopsis lobatus , 2008, Applied biochemistry and biotechnology.

[110]  T. J. Britz,et al.  Characterisation of the microbial population at different stages of Kefir production and Kefir grain mass cultivation , 2005 .

[111]  M. Kanellaki,et al.  Thermally-dried immobilized kefir on casein as starter culture in dried whey cheese production. , 2009, Food microbiology.

[112]  J. Oldham,et al.  Metabolism in the high-yielding dairy cow. , 1980 .

[113]  D. Poncelet,et al.  ENCAPSULATION OF LACTIC ACID BACTERIA IN CALCIUMALGINATE BEADS FOR BACTERIOCIN PRODUCTION , 2002 .

[114]  T. Akiyama,et al.  Dynamic modeling of immobilized cell reactor: Application to ethanol fermentation , 1989, Biotechnology and bioengineering.

[115]  S. Maicas The use of alternative technologies to develop malolactic fermentation in wine , 2001, Applied Microbiology and Biotechnology.

[116]  M. Sanromán,et al.  Lipolytic Enzyme Production by Immobilized Rhizopus oryzae , 2008 .

[117]  J. Ogbonna,et al.  A Multistage Bioreactor with Replaceable Bioplates for Continuous Wine Fermentation , 1989, American Journal of Enology and Viticulture.

[118]  L. L. Lloyd,et al.  Malolactic fermentation in chardonnay wine by immobilised Lactobacillus casei cells , 1998 .

[119]  The application of corrugated parallel bundle model to immobilized cells in porous microcapsule membranes , 2008 .

[120]  V. Nedović,et al.  Encapsulation of Probiotics for use in Food Products , 2010 .

[121]  C. Ghommidh,et al.  A study of acetic acid production by immobilized Acetobacter Cells: Oxygen transfer , 1982, Biotechnology and bioengineering.

[122]  S. Scheinbach Probiotics: functionality and commercial status. , 1998, Biotechnology advances.

[123]  John F. Kennedy,et al.  Immobilized Living Cells and Their Applications , 1983 .

[124]  A. Vicente,et al.  High gravity batch and continuous processes for beer production: Evaluation of fermentation performance and beer quality , 2008 .

[125]  R. Cachon,et al.  Wine Production by Immobilised Cell Systems , 2005 .

[126]  Plaisant,et al.  Continuous cider fermentation with co-immobilized yeast and Leuconostoc oenos cells. , 2000, Enzyme and microbial technology.

[127]  C. Robertson,et al.  Dual aerobic hollow‐fiber bioreactor for cultivation of Streptomyces aureofaciens , 1985, Biotechnology and bioengineering.

[128]  U. Sonnewald,et al.  Potato tubers as bioreactors for palatinose production. , 2002, Journal of biotechnology.

[129]  J. Engasser,et al.  Citric acid production from glucose. II. Growth and excretion kinetics in a trickleflow fermentor , 1979 .

[130]  V. Nedović,et al.  Primary beer fermentation by immobilised yeast—a review on flavour formation and control strategies , 2006 .

[131]  G. Corrieu,et al.  Use of an immobilized cell bioreactor for the continuous inoculation of milk in fresh cheese manufacturing , 1997, Journal of Industrial Microbiology and Biotechnology.

[132]  Y. Wee,et al.  Production and Characterization of Wine with Sugarcane Piece Immobilized Yeast Biocatalyst , 2011 .

[133]  R. Simpson,et al.  A Comparative Study of Stout Beer Batch Fermentation Using Free and Microencapsulated Yeasts , 2012, Food and Bioprocess Technology.

[134]  G. Bitton,et al.  Adsorption of microorganisms to surfaces. , 1980 .