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

Dai, Yaxi; Tyl, Catrin

doi:10.1111/1750-3841.15713

Cited by 25 publications

(14 citation statements)

References 96 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The other enzyme of interest to industry is starch‐acting α‐glucanotransferase enzymes (Te Poele et al, 2020). However, the effect of enzymatic treatment and nixtamalization of flour on sorghum bread development is also less targeted research area, though Dai and Tyl (2021) in their review highlighted single and combined enzymes as dough conditioners for bread development.…”

Section: Existing Gaps Challenges and Future Prospectsmentioning

confidence: 99%

Approaches for development of functional and low gluten bread from sorghum: A review

Sharanagat

Singh

Nema

2022

Food Processing Preservation

View full text Add to dashboard Cite

The demand for low gluten and gluten‐free products in the market has increased remarkably in recent years owing to diseases derived/provoked by the consumption of gluten. Gluten withdrawals from the diet is the main approach to prevent the incidence of celiac symptoms. Attempts are being made to identify different non‐wheat sources of foods with desirable characteristics. Sorghum is one such identified food grain. Diversified products have fetched the limelight, but bread being a widely consumed food product has been researched widely. Despite enormous work carried out on gluten‐free bread, the approaches utilized for bread development from sorghum have not been documented systematically. The present study thus reviews the literature published in the last 10 years to identify the distribution/spread of these studies, the method used for modification of sorghum for bread, the advancements made, the associated challenges, and future prospects. Practical applications It was observed through published literature that flour and dough modification offered an advantage over unprocessed sorghum flour. In most cases, 20–30% replacement of wheat flour by sorghum seemed feasible for quality bread products while only a few studies could make 100% sorghum‐based bread. Additionally, the additives, ingredients, emulsifiers, enzymes, microbes, etc. addition improved bread properties. However, the number of studies published on every aspect is limited while some approaches are yet to be explored. Hence, the present review will help to identify the work done on sorghum bread and, gap and challenges associated with the development of gluten‐free sorghum bread.

show abstract

Section: Existing Gaps Challenges and Future Prospectsmentioning

confidence: 99%

Approaches for development of functional and low gluten bread from sorghum: A review

Sharanagat

Singh

Nema

2022

Food Processing Preservation

View full text Add to dashboard Cite

show abstract

“…In addition, high economic loss is caused by bread wasted due to staling and microbial spoilage (mainly mould and rope spoilage) [ 1 , 2 ]. Innovations in bread making over the last decade include the use of enzymes [ 3 ], natural preservatives produced mainly by lactobacilli, and sourdough technology [ 4 , 5 ]. Indisputably, very encouraging results have been obtained by the exploitation of different types of sourdoughs, which have been used as natural bread-leavening agents since antiquity.…”

Section: Introductionmentioning

confidence: 99%

Quality Characteristics of Novel Sourdough Breads Made with Functional Lacticaseibacillus paracasei SP5 and Prebiotic Food Matrices

Kazakos

Mantzourani

Plessas

2022

Foods

View full text Add to dashboard Cite

Lacticaseibacillus paracasei SP5, isolated from kefir, was assessed as a starter culture for sourdough bread making in freeze-dried form, both free (BSP5 bread) and immobilised on wheat bran (BIWB) and on a traditional flour/sour milk food, ‘trahanas’ (BITR). Physicochemical characteristics, shelf-life, volatilome, phytic acid, and sensory properties of the breads were evaluated. The BITR breads had higher acidity (9.05 ± 0.14 mL of 0.1 M NaOH/10 g) and organic acid content (g/Kg; 2.90 ± 0.05 lactic, 1.04 ± 0.02 acetic), which justifies the better resistance against mould and rope spoilage (>10 days). The highest number of volatiles (35) and at higher concentration (11.14 μg/g) were also found in BITR, which is in line with the sensory (consumer) evaluation regarding flavour. Finally, higher reduction of phytate (an antinutrient) was observed in all L. paracasei SP5 sourdoughs (83.3–90.7%) compared to the control samples (71.4%). The results support the use of the new strain for good quality sourdough bread.

show abstract

“…Its importance in biochemical processes comes as a strong reducing agent and stabilizer, and on the basis of these properties, it can be used in the bakery industry (Varvara et al, 2015). In addition to being a reducing agent, it is oxidized in the wheat flour paste to L-Dehydroascorbic acid by the enzyme ascorbate oxidase present in the wheat and thus plays a double role as an oxidizing and reducing agent (Dai and Tyl, 2021). The resulting bread when adding ascorbic acid is characterized by its high quality due to the strengthening of the dough protein network by creating sulfur bonds between the peptides that make up the flour protein, as a result of converting sulfhydryl groups into sulfur bonds, which leads to the strengthening of the dough and increases its ability to retain gas and increase the volume of bread (Topcu and Karatas, 2017;Jia et al, 2022).…”

Section: Introductionmentioning

confidence: 99%

Effect Of Addition Of L-Ascorbic Acid To Wheat Bread Dough On Blood Glucose Response, Glycemic Index And Glycemic Load In Normal Subject

Thannoun¹

2022

Journal of Pharmaceutical Negative Results

View full text Add to dashboard Cite

The aim of this study was to determine the effect of ascorbic acid (Vitamin C) as improver in bread on blood glucose response (BGR), Glycemic Index (GI) and Glycemic Load (GL) in healthy subjects. Three concentration of ascorbic acid namely, 5ppm, 10ppm and 15 ppm concentration were added to Ab-Graib wheat flour of 72 and 90% extraction in making local flat bread. Chemical composition of flour and produced bread and sensory properties were determined in order to assess the quantity of bread intake by Volunteers (Undergraduate and Graduate students in collage of Agriculture and forestry, University of Mosul) with BMI between 20-24 Kg/m2. Results show that bread samples which fortified by ascorbic acid had good and acceptable sensory properties. Both GI and GL were reduced in both 72 and 90% wheat flour extraction rate. The effect of addition of ascorbic acid in decreasing GI and GL was more in bread made from 90% flour extraction than bread made from 72% flour extraction, and this may be because of the more dietary fibers that 90% flour extraction contained. It was concluded that addition of ascorbic acid in précised quantity resulted in decreasing GI of bread made of 72 and 90% flour extractions with minimal increasing in higher concentrations.

show abstract

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

Cited by 25 publications

References 96 publications

Approaches for development of functional and low gluten bread from sorghum: A review

Approaches for development of functional and low gluten bread from sorghum: A review

Quality Characteristics of Novel Sourdough Breads Made with Functional Lacticaseibacillus paracasei SP5 and Prebiotic Food Matrices

Effect Of Addition Of L-Ascorbic Acid To Wheat Bread Dough On Blood Glucose Response, Glycemic Index And Glycemic Load In Normal Subject

Contact Info

Product

Resources

About