Transglutaminase and tyrosinase as potential cross‐linking tools for the improvement of rheological properties of gluten‐free amadumbe dough

Manhivi, Vimbainashe E.; Amonsou, Eric O.

doi:10.1111/ijfs.14489

Cited by 7 publications

(9 citation statements)

References 28 publications

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“…A decrease of sulfhydryl groups in tyrosinase‐supplemented gluten‐free amadumbe (taro) bread was found by Manhivi et al. (2020). This result indicated an increase of disulfide bonds and, consequently, a stronger protein network in this gluten‐free system.…”

Section: Mechanisms Of Enzymatic Dough Conditionersmentioning

confidence: 83%

“…Tyrosinase has been reported to enhance the polymerization of oat globulins, which strengthened the resulting protein network and increased the specific loaf volume of oat bread (Flander et al, 2011). A decrease of sulfhydryl groups in tyrosinase-supplemented gluten-free amadumbe (taro) bread was found by Manhivi et al (2020). This result indicated an increase of disulfide bonds and, consequently, a stronger protein network in this gluten-free system.…”

Section: Tyrosinasementioning

confidence: 90%

“…Especially the presence of high-molecular weight (HMW) glutenins in wheat flour is positively correlated with good bread-making quality (Cauvain, 2012). Thus, their unique functionality has to be mimicked in products that are gluten free or where other constituents interfere with the formation of a stable protein network (such as in whole grain wheat flours or blends of wheat with other flours) (Manhivi et al, 2020;Tebben et al, 2018). Several additives have been used for this purpose, including hydrocolloids, emulsifiers, and oxidizing or reducing agents, as reviewed by Gioia et al (2017).…”

Section: Mechanisms Of Enzymatic Dough Conditionersmentioning

confidence: 99%

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A review on mechanistic aspects of individual versus combined uses of enzymes as clean label‐friendly dough conditioners in breads

Dai

Tyl

2021

Journal of Food Science

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Numerous dough improvers are used alone or in combination to enhance the quality of baked goods such as breads. While modern consumers demand consistent quality, the expectations for ingredients have changed over the past few years, and reformulations have taken place to provide "clean label" options. However, the effects and mechanisms of blended dough conditioners suitable for such baked products have not been systematically summarized. In this review, dough and bread properties as affected by different improver combinations are examined, with a focus on additive or synergistic interactions between enzymes or between enzymes and ascorbic acid. The combination of enzymes that hydrolyze starch and cell wall polysaccharides has been shown to reduce textural hardness in fresh and stored bakes goods such as breads. Enzymes that hydrolyze arabinoxylans, the main nonstarch polysaccharide in wheat, have synergistic effects with enzymes that result in cross-linking of wheat flour biopolymers. In some studies, the effects of bread improvers varied for wheat flours of different strength. Overall, bread products in which wheat is used in whole grain form or in a blend with other flours especially benefit from multiple improvers that target different flour constituents in doughs.

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Section: Mechanisms Of Enzymatic Dough Conditionersmentioning

confidence: 83%

Section: Tyrosinasementioning

confidence: 90%

Section: Mechanisms Of Enzymatic Dough Conditionersmentioning

confidence: 99%

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A review on mechanistic aspects of individual versus combined uses of enzymes as clean label‐friendly dough conditioners in breads

Dai

Tyl

2021

Journal of Food Science

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“…Despite its long-standing existence, it is marginalized in food production, export, and industrial usage. However, that narrative is changing as scientific investigations into its utilisation as a food fortificant (59,60,89,90) and food ingredient (91)(92)(93)(94) are currently underway. Nutritionally, taro is superior to cassava and potatoes in protein (11% dry weight) and carbohydrate (87% dry weight) contents.…”

Section: Taro Rootmentioning

confidence: 99%

Classification of African Native Plant Foods Based on Their Processing Levels

Jideani¹,

Onipe

Ramashia

2022

Front. Nutr.

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With increasing advocacy for plant food consumption, the sub-Saharan Africa landscape is home to diverse plant-based food commodities. The need to leverage the advantages of unprocessed/minimally processed foods (PFs) over ultra-processed foods (UPFs) is a system that requires exploitation. Most of the crops produced in the continent are either classified as traditionally or moderately PFs. However, the rise in industrialization and formalization of markets is impacting and marginalizing traditional food processing (FP). Current FP classification frameworks are briefly discussed. The level of processing of cereals, grains, fruits, vegetables, roots, and tuber crops in the continent requires intervention from nutritionists, food scientists, and scientific and governmental bodies to gain a holistic view and tackle the issue of food insecurity in Africa. This study reviews the levels of processing of African foods, challenges, and future directions.

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“…In addition, the functionality of proteins from gluten-free flours could be modified with enzymes and oxidants, which promote protein network formation and improve their baking characteristics. Of the enzymes used in the food industry, transglutaminase (TGase) has been successfully applied in several food systems for its unique ability of modifying protein functionality and promoting protein crosslinking simultaneously (Manhivi et al, 2020). As an oxidant, ascorbic acid (AA) has successfully replaced potassium bromate for wheat flour improvement because AA has rapid reaction characteristics (Yildiz et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

Comparative study on composite buckwheat dough and steamed bread modified by transglutaminase and ascorbic acid

Zheng

Wei

Song

et al. 2021

Int J of Food Sci Tech

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The effects of transglutaminase (TGase) and ascorbic acid (AA) on the processing properties of composite buckwheat dough (CBD) and composite buckwheat steamed bread were investigated in this study. Both TGase and AA significantly enhanced the peak and trough viscosity of CBD. With the addition of TGase or AA, storage modulus (G 0 ) and viscous modulus (G″) of CBD increased first and then decreased, which was corroborated by data on protein secondary structure. Results revealed TGase and AA promoted protein crosslinking, and that TGase led to a more continuous, smoother dough structure than did AA. TGase and AA strongly affected hardness, adhesiveness and cohesiveness of CBD with a positive aspect. Compared with the steamed bread made with pure buckwheat, that made with composite buckwheat flour with TGase or AA had significantly lower hardness and gumminess rates within 30-60 min but no significant results were noted within 0-30 min.

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Transglutaminase and tyrosinase as potential cross‐linking tools for the improvement of rheological properties of gluten‐free amadumbe dough

Cited by 7 publications

References 28 publications

A review on mechanistic aspects of individual versus combined uses of enzymes as clean label‐friendly dough conditioners in breads

A review on mechanistic aspects of individual versus combined uses of enzymes as clean label‐friendly dough conditioners in breads

Classification of African Native Plant Foods Based on Their Processing Levels

Comparative study on composite buckwheat dough and steamed bread modified by transglutaminase and ascorbic acid

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