Pastry Lift and Croissant Volume as Affected by Microbial Transglutaminase

Gerrard, Juliet A.; Newberry, Marcus; Ross, M.; Wilson, A. J.; Fayle, S. E.; Kavale, S.

doi:10.1111/j.1365-2621.2000.tb15999.x

Cited by 91 publications

(52 citation statements)

References 3 publications

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“…From the above-indicated findings it follows that: (i) considering the product cambering, TGM has the best effect after the first day of freezing of dough, which can follow from the necessity that the dough needs some time for its activation (this knowledge is corresponding to data reported by Gerrard et al [13]); (ii) freezing leads to the diminution of the size of pastry, which is in all probability caused by a decrease of the yeast activtiy due to freezing; (iii) the sensory quality of pastry decreased in all samples with extending the length of storage; however, in the case of samples with the addition of TGM the evaluation was higher than in the case of control before and after freezing; (iv) the best effect on the cambering of dough as well as on the sensory evaluation was exerted at the concentration of 4.5 mg TGM/300 g flour; (v) the dough at the concentration of 7.5 mg TGM/300 g flour was very adhesive and therefore its processing was difficult. The initial adhesive power was later on partially reduced during its further development, which is also in agreement with literature data [12]; (vi) freezing induced the marbling of pastry, which met with an unfavourable response of assessors.…”

Section: Pastry With Tgmsupporting

confidence: 73%

“…The best results of raising the dough have been achieved by the addition of transglutaminase (5000 ppm) to the subsequently frozen dough (activation of enzymes during defreezing). The positive effect of the addition of transglutaminase persisted even during the 90-day storage of frozen pastry and the bread crumb showed to be better than in the control [12,13].…”

Section: Introductionmentioning

confidence: 55%

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Application of transglutaminase and fermizyme for sensory quality improvement of pastry

Hozova¹,

Kukurová²,

Dodok³

2003

Nahrung

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The objective of the model experiment was to find out the improving effect of two selected enzymes, transglutaminase (i) and fermizyme (ii), added at different concentrations of 4.5 mg and 7.5 mg/300 g flour (i) and 15 mg and 60 mg/300 g flour (ii) to the pastry dough on the quality of end products. The investigation was aimed to observe some changes of the sensory parameters (sensory profile) of pastry produced from the freezer-stored dough (-18 +/- 2 degrees C/0, 1, 7 and 14 days), namely shape (camber), odour, taste, crust colour (thickness/hardness), crumb elasticity (porosity, colour, hardness), adhesiveness to palate, etc. It has been ascertained that the sensory quality is favourably affected by the addition of the lower concentration of both enzymes: transglutaminase, 4.5 mg/300 g flour and fermizyme, 15 mg/300 g flour in comparison to the control without enzymes. The cambering ratio values and other sensory profile parameters of pastry gradually decreased during the freezer storage of dough. The best sensory evaluation of both kinds of pastry was achieved after a one-day storage of doughs.

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Section: Pastry With Tgmsupporting

confidence: 73%

Section: Introductionmentioning

confidence: 55%

Application of transglutaminase and fermizyme for sensory quality improvement of pastry

Hozova¹,

Kukurová²,

Dodok³

2003

Nahrung

View full text Add to dashboard Cite

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“…Sakamoto et al [4] reported that physical properties of Chinese noodles could be improved by the addition of microbial TG. Dramatic improving effects of TG on yeasted croissant volume and lift of puff pastry were also reported [5]. Investigations on the effects of TG on empirical rheological properties (e.g., farinograph, extensigraph) and bread quality are even fewer.…”

Section: Introductionmentioning

confidence: 95%

Effects of increasing levels of transglutaminase on the rheological properties and bread quality characteristics of two wheat flours

Başman

Köksel

2002

European Food Research and Technology

110

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The objective of the present study was to investigate the effects of increasing levels of transglutaminase (TG) on rheological and baking properties of Roane (soft red winter wheat) and Sharpshooter (hard red spring wheat) flours. The TG enzyme was added at six different levels (0, 0.1, 0.25, 0.5, 1.0, 1.5% w/w). A farinograph and a texture analyzer with an SMS/Kieffer rig were used to examine the mixing properties and extensibility of the flour doughs, respectively. Results from farinography showed decreasing flour-water absorption with increasing TG levels. Dough development time and stability values initially increased with increasing levels of TG, but decreased at higher TG levels. Extensibility values decreased and Rmax values increased significantly with increasing TG levels. Low levels of TG had improving effects on bread quality (crust and crumb characteristics), while higher levels (1 and 1.5%) had detrimental effects. The improving effect of TG at lower addition levels was more evident for the soft wheat cultivar, Roane. Overall results indicated that TG, even at very low levels, could be successfully incorporated in the dough formulation to improve breadmaking quality.

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“…(80,81) Other additives, very useful in frozen dough, are the hydrocolloids for their water retention capacity that improves the stability during frozen storage. (28) In the conventional processes the hydrocolloids improve dough stability during proofing, (83) and impart a softening effect of the crumb extending the shelf life of the baked breads.…”

mentioning

confidence: 99%

Frozen Dough and Partially Baked Bread: An Update

Rosell

Gómez

2007

Food Reviews International

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The bakery market is growing due to the development of new technologies related with freezing temperatures. In this contribution the state of the art is reviewed, giving special emphasis in the contributions of the last two decades. This review is especially 4 focussing in being a useful guide of the research performed in the application of freezing at different steps of the breadmaking process, giving an overview toward the bakery market is moving on. The raw material requirements, processing conditions and baked bread quality from frozen dough and partially baked bread are reviewed. 8

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Pastry Lift and Croissant Volume as Affected by Microbial Transglutaminase

Cited by 91 publications

References 3 publications

Application of transglutaminase and fermizyme for sensory quality improvement of pastry

Application of transglutaminase and fermizyme for sensory quality improvement of pastry

Effects of increasing levels of transglutaminase on the rheological properties and bread quality characteristics of two wheat flours

Frozen Dough and Partially Baked Bread: An Update

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