Effect of the emulsifier sodium stearoyl lactylate and of the enzyme maltogenic amylase on the quality of pan bread during storage

Gomes-Ruffi, Cristiane Rodrigues; Cunha, Robison Henrique da; Almeida, Eveline Lopes; Chang, Yoon Kil; Steel, Caroline Joy

doi:10.1016/j.lwt.2012.04.014

Cited by 68 publications

(45 citation statements)

References 10 publications

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“…The first scientific observation that led to the discovery of immobilized enzymes was made in 1916 [1]. It was demonstrated that invertase exhibited the same activity when absorbed on a solid, such as charcoal or aluminum hydroxide, at the bottom of the reaction vessel as when uniformly distributed throughout the solution.…”

Section: Historical Backgroundmentioning

confidence: 99%

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Enzyme immobilization: an update

et al. 2013

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Compared to free enzymes in solution, immobilized enzymes are more robust and more resistant to environmental changes. More importantly, the heterogeneity of the immobilized enzyme systems allows an easy recovery of both enzymes and products, multiple re-use of enzymes, continuous operation of enzymatic processes, rapid termination of reactions, and greater variety of bioreactor designs. This paper is a review of the recent literatures on enzyme immobilization by various techniques, the need for immobilization and different applications in industry, covering the last two decades. The most recent papers, patents, and reviews on immobilization strategies and application are reviewed.

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Section: Historical Backgroundmentioning

confidence: 99%

“…Applications of enzymes in food industries include baking [1], dairy products [2,3], starch conversion [4] and beverage processing (beer, wine, fruit and vegetable juices). In textiles industries, enzymes have found a special place due to their effect on end products [5].…”

Section: Introductionmentioning

confidence: 99%

Enzyme immobilization: an update

et al. 2013

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“…Glycerol monostearate (GMS) is a colourless, odourless, and sweet-tasting flaky powder that is hygroscopic, so it is widely used as an emulsifier in the food industry (Galloway et al 1989;Carrillo-Navas et al 2014). Calcium stearoyl lactylate (CSL) is used to enhance dough conditioners/strengtheners and softeners in starch products (Gomes-Ruffi et al 2012). The diacetyl tartaric acid ester of monoglycerides (DATEM) has been shown to modify the resistance and extensibility of dough by different proposed mechanisms (Ponzio et al 2013).…”

Section: Food Technology and Economy Engineering And Physical Propermentioning

confidence: 99%

Effect of extrusion treatment on the thermal stability and structure of corn starch with different emulsifiers

Yang¹,

Xiao²,

Zhao³

et al. 2015

Czech J. Food Sci.

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Corn starch was treated with raw moisture (30%), screw speed (160 rpm), extrusion temperature (30, 55, 80, 105, 130, and 155°C), and emulsifier (1.2%) to produce the starch extrudate particles in a twin screw extruder. The influence of extrusion processing and composition (starch and emulsifier content) on the viscosity, microstructure, solubility, swelling power, and thermal stability of starch extrudate particles was examined. The SEM results showed that the surface of starch extrudate particles was quite irregular and a fissure could be clearly observed. The X-ray intensities and relative crystallinity were decreased after extrusion treatment. The data highlighted that the gelatinisation temperature and solubility were increased and the gelatinisation enthalpy, viscosity, and swelling power were decreased. The emulsifiers present also influenced the thermal stability and solubility of starch extrudate particles, which were attributed to their ability to modify starch granule interactions. The thermogravimetric analysis and differential scanning calorimetry analysis indicated that the thermal stability of starch extrudate particles was improved after extrusion processing.

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“…Crumb firming is unavoidable, however it can be slowed down by adding bread emulsifiers, enzymes or hydrocolloids in the bread recipe. Complex interaction between bread emulsifiers and enzymes with the flour components improves bread quality and assists in retarding crumb firming (Gomes-Ruffi et al, 2012;Purhagen et al, 2011). He and Hoseney (1990) and Faridi and Rubenthaler (1984) had all demonstrated that bread with high moisture content in crumb had lower firmness value during storage.…”

Section: Introductionmentioning

confidence: 99%

“…Crumb firming is the condition which the crumb becomes dry and crumbly resulting in gradual reduction of bread eating properties, or more commonly described as bread staling. The common causes for bread staling are starch retrogradation, proteins and protein-starch interactions and moisture migration (Gomes-Ruffi et al, 2012; Gray and Bemille, 2003). Crumb firming is unavoidable, however it can be slowed down by adding bread emulsifiers, enzymes or hydrocolloids in the bread recipe.…”

mentioning

confidence: 99%

Impact of Humidified Baking on Crust and Crumb Properties of Open Bread during Storage

Jusoh

Chin

Yusof

et al. 2013

FSTR

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Humidified baking was investigated in the light of producing breads envisaged to have better quality and freshness. Open bread loaves were prepared using the straight dough method where baking was performed with or without humidity at three levels of temperatures of 185, 195 and 205℃, and baking times of 25, 30 and 35 min. Baked breads were evaluated by measuring its crust color and thickness, and bread crumb moisture content and firmness. Humidified baking has no significant effect in enlightening bread crust color (P > 0.05) but significantly reduced the crust thickness (P < 0.001) and increased the initial moisture content (IMC) of bread crumb. The higher IMC of bread crumb led to a higher final moisture content (FMC) of bread during storage and these helped to reduce the firming rate of bread during a 96 h storage especially for the lower baking temperatures and times. Significant differences (P < 0.001) were observed on crust color and thickness, and bread crumb moisture content and firmness as effect of baking temperature and time.Keywords: bread, humidified baking, crust, crumb *To whom correspondence should be addressed. E-mail: chinnl@eng.upm.edu.my IntroductionBaking is an eminent step in a breadmaking process as it highly contributes to the setting and changes of bread's organoleptic and physico-chemical properties. With simultaneous heat and mass transfer processes occurring during baking, dough experiences changes which lead to the transformation of raw dough to bread through a series of physical, chemical and structural transformations which include starch gelatinization, protein denaturation and coagulation, volume expansion, and browning reactions (Mohd. Jusoh et al., 2009;Zanoni et al., 1993).Apart from transforming inedible raw dough to soft, moist and palatable porous bread structure, baking process is also responsible in controlling the moisture content in bread. In conventional baking, the relationship of moisture content is reciprocal to the baking temperature and time (Wagner et al., 2007;Baik and Marcotte, 2002;Faridi and Rubenthaler, 1984). An appropriate amount of moisture content is required in bread to prolong its shelf-life. Higher moisture content is proven to assist in slowing down the rate of crumb firming (Baik and Chinachoti, 2002;Faridi and Rubenthaler, 1984). Crumb firming is the condition which the crumb becomes dry and crumbly resulting in gradual reduction of bread eating properties, or more commonly described as bread staling. The common causes for bread staling are starch retrogradation, proteins and protein-starch interactions and moisture migration (Gomes-Ruffi et al., 2012; Gray and Bemille, 2003). Crumb firming is unavoidable, however it can be slowed down by adding bread emulsifiers, enzymes or hydrocolloids in the bread recipe. Complex interaction between bread emulsifiers and enzymes with the flour components improves bread quality and assists in retarding crumb firming (Gomes-Ruffi et al., 2012;Purhagen et al., 2011). He and Hoseney (1990) and Faridi and Rubentha...

show abstract

Effect of the emulsifier sodium stearoyl lactylate and of the enzyme maltogenic amylase on the quality of pan bread during storage

Cited by 68 publications

References 10 publications

Enzyme immobilization: an update

Enzyme immobilization: an update

Effect of extrusion treatment on the thermal stability and structure of corn starch with different emulsifiers

Impact of Humidified Baking on Crust and Crumb Properties of Open Bread during Storage

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