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International Journal of Food Properties Volume 20, 2017 - Issue 4
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Original Articles

Frozen Sangak dough and bread properties: Impact of pre-fermentation and freezing rate

Sayyed-Vahid AyatiDepartment of Food Science and Technology, College of Agriculture, Isfahan University of Technology, Isfahan, IranCorrespondence[email protected]
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,
Nasser HamdamiDepartment of Food Science and Technology, College of Agriculture, Isfahan University of Technology, Isfahan, Iran;Center of Excellence in Food Safety and Quality, Isfahan University of Technology, Isfahan, IranView further author information
&
Alain Le-BailLUNAM University, ONIRIS, Nantes Cedex, France;CNRS, Nantes, FranceView further author information
Pages 782-791 | Received 20 Jan 2016, Accepted 16 Apr 2016, Published online: 13 Oct 2016

References

  • Van den Berg, L. Physicochemical Changes in Foods During Freezing and Subsequent Storage. In Recent Advances in Food Science; Hawthorn, J.; Rolfe, E.J.; Eds.; Pergamon Press: Oxford, 1968; pp. 205–219.
  • Nakamura, T.; Takagi, H.; Shima, J. Effects of Ice-Seeding Temperature and Intracellular Trehalose Contents on Survival of Frozen Saccharomyces Cerevisiae Cells. Cryobiology 2009, 58, 170–174.
  • Rasanen, J.; Harkonen, H.; Autio, K. Freeze–Thaw Stability of Prefermented Frozen Lean Wheat Doughs: Effect of Flour and Fermentation Time. Cereal Chemistry 1995, 72, 637–642.
  • Le-Bail, A.; Nicolitch, C.; Vuillod, C. Fermented Frozen Dough: Impact of Pre-Fermentation Time and of Freezing Rate for a Pre-Fermented Frozen Dough on Final Volume of the Bread. Food and Bioprocess Technology 2010, 3, 197–203.
  • Hsu, K.H.; Hoseney, R.C.; Seib, P.A. Frozen Dough. 1. Factors Affecting Stability of Yeasted Doughs. Cereal Chemistry 1979, 56, 419–424.
  • Van Dijck, P.; Colavizza, D.; Smet, P.; Thevelein, J.M. Differential Importance of Trehalose in Stress Resistance in Fermenting and Nonfermenting Saccharomyces Cerevisiae Cells. Applied and Environmental Microbiology 1995, 61, 109–115.
  • Takano, H.; Naito, S.; Ishida, N.; Koizumi, M.; Kano, H. Fermentation Process and Grain Structure of Baked Breads from Frozen Dough Using Freeze-Tolerant Yeasts. Journal of Food Science 2002, 67, 2725–2733.
  • Macleod, R.A.; Calcot, P.H. Cold Shock and Freezing Damage to Microbe. In The survival of Vegetative Microbes; Gray, T.R.G.; Postgat, J.R.; Eds.; Cambridge University Press: Cambridge, MA, 1976; pp. 81–109.
  • Lorenz, K.; Bechtel, W. Frozen Bread Dough. Bakers Digest 1964, 38, 59–60.
  • Mazur, P.; Schmidt, J.J. Interactions of Cooling Velocity, Temperature, and Warming Velocity on the Survival of Frozen and Thawed Yeast. Cryobiology 1968, 5, 1–17.
  • Le Bail, A.; Havet, M.; Pasco, M. Influence of the Freezing Rate and of Storage Duration on the Gassing Power of Frozen Bread Dough. In Hygiene, Quality and Safety in the Cold Chain and Air Conditioning; International Institute of Refrigeration: France, 1998; pp. 181–188.
  • Lu, W.; Grant, L. Effects of Prolonged Storage at Freezing Temperatures on Starch and Baking Quality of Frozen Doughs. Cereal Chemistry 1999, 76, 656–662.
  • Rouille, J.; Le Bail, A.; Courcoux, P. Influence of Formulation and Mixing Conditions on Breadmaking Qualities of French Frozen Dough. Journal of Food Engineering 2000, 43, 197–203.
  • International Institute of Refrigeration. Recommendation for the Processing and Handling of Frozen Foods; International Institute of Refrigeration: Paris, France. 1986, 32–39.
  • AACC. Approved Methods of the American Association of Cereal Chemists, 10th Ed; AACC: St. Paul, MN, 2000.
  • Ahmed, E.M.; Martin, F.G.; Fluck, R.C. Damaging Stresses to Fresh and Irradiated Citrus Fruits. Journal of Food Science 1973, 38, 230–233.
  • Yam, K.L.; Papadakis, S.E. A Simple Digital Imaging Method for Measuring and Analyzing Color of Food Surfaces. Journal of Food Engineering 2004, 61, 137–142.
  • Mazur, P. Cryobiology—Freezing of biological systems. Science 1970, 168, 939–949.
  • Mazur, P. Kinetics of Water Loss from Cells at Subzero Temperatures and the Likelihood of Intracellular Freezing. Journal of Genetic Physiology 1963, 47, 347–369.
  • Dumont, F.; Marechal, P.A.; Gervais, P. Influence of Cooling Rate on 1-Saccharomyces Cerevisiae 2—Destruction During Freezing: Unexpected Viability at Ultra-Rapid Cooling Rates. Cryobiology 2003, 46, 33–42.
  • Morris, G.; Coulson, G.; Clarke, K. Freezing Injury in Saccharomyces Cerevisiae: The Effect of Growth Conditions. Cryobiology 1988, 25, 471–482.
  • Park, J.I.; Grant, C.M.; Davies, M.J.; Dawes, I.W. The Cytoplasmic Cu, Zn, Superoxide Dismutase of Saccharomyces Cerevisiae is Required for Resistance to Freeze-Thaw Stress: Generation of Free Radicals During Freezing and Thawing. Journal of Biological Chemistry 1998, 273, 22921–22928.
  • Lewis, J.G.; Learmonth, R.P.; Watson, K. Role of Growth Phase and Ethanol in Freeze-thaw Stress Resistance of Saccharomyces Cerevisiae. Applied and Environmental Microbiology 1993, 59, 1065–1071.
  • Beney, L.; Martinez de Maranon, I.; Marechal, P.A.; Gervais, P. Influence of Thermal and Osmotic Stresses on the Viability of the Yeast Saccharomyces Cerevisiae. International Journal of Food Microbiology 2000, 55, 275–279.
  • Muldrew, K.; McGann, L.E. Mechanisms of Intracellular Ice Formation. Biophysical Journal 1990, 57, 525–532.
  • Meziani, S.; Ioannou, I.; Jasniewski, J.; Belhaj, N.; Muller, J.M.; Ghoul, M.; Desobry, S. Effects of Freezing Treatments on the Fermentative Activity and Gluten Network Integrity of Sweet Dough. LWT–Food Science and Technology 2012, 46, 118–126.
  • Havet, M.; Mankai, M.; Le-Bail, A. Infuence of the Freezing Condition on the Baking Performances of French Frozen Dough. Journal of Food Engineering 2000, 45, 139–145.
  • Autio, K.; Sinda, E. Frozen Doughs: Rheological Changes and Yeast Viability. Cereal Chemistry 1992, 69, 409–413.
  • Wolt, M.J.; D’appolonia, B.L. Factors Involved in the Stability of Frozen Dough. I. The Influence of Yeast Reducing Compounds on Frozen-Dough Stability. Cereal Chemistry 1984, 61, 209–212.
  • Varriano-Marston, E.; Hsu, K.H.; Mahdi, J. Rheological and Structural Changes in Frozen Dough. Bakers Digest 1980, 54, 32–34.
  • Yi, J.; Kerr, W.L. Combined Effects of Freezing Rate, Storage Temperature and Time on Bread Dough and Baking Properties. LWT–Food Science and Technology 2009, 42, 1474–1483.
  • Esselink, E.F.J.; Aalst, J.; Maliepaard, M.; Duynhoven, J.P.M. Long-Term Storage Effect in Frozen Dough by Spectroscopy and Microscopy. Cereal Chemistry 2003, 80, 396–403.
  • Huang, H.; Kokini, J.L. Measurement of Biaxial Extensional Viscosity of Wheat Flour Doughs. Journal of Rheology 1993, 37, 879.
  • Janssen, A.; Van Vliet, T.; Vereijken, J. Fundamental and Empirical Rheological Behaviour of Wheat Flour Doughs and Comparison with Bread Making Performance. Journal of Cereal Science 1996, 23, 43–54.
  • Dobraszczyk, B.; Smewing, J.; Albertini, M.; Maesmans, G.; Schofield, J. Extensional Rheology and Stability of Gas Cell Walls in Bread Doughs at Elevated Temperatures in Relation to Breadmaking Performance. Cereal Chemistry 2003, 80, 218–224.
  • Hohmann, S. Shaping up: The Response of Yeast to Osmotic Stress. In Yeast Stress Responses; Hohmann, S.; Mager, W.H.; Eds.; Springer: New York, NY, 1997; pp. 101–146.
  • Phimolsiripol, Y.; Siripatrawan, U.; Tulyathan, V.; Cleland, D.J. Effects of Freezing and Temperature Fluctuations During Frozen Storage on Frozen Dough and Bread Quality. Journal of Food Engineering 2008, 84, 48–56.
  • Zanoni, B.; Peri, C.; Bruno, D. Modelling of Browning Kinetics of Bread Crust During Baking. LWT–Food Science and Technology 1995, 28, 604–609.

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