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Review: Shaping a sustainable food future by rediscovering long-forgotten ancient grains.
Cheng, A
Plant science : an international journal of experimental plant biology. 2018;:136-142
Abstract
Genetic erosion of crops has been determined way back in the 1940s and accelerated some twenty years later by the inception of the Green Revolution. Claims that the revolution was a complete triumph remain specious, especially since the massive production boost in the global big three grain crops; wheat, maize, and rice that happened back then is unlikely to recur under current climate irregularities. Presently, one of the leading strategies for sustainable agriculture is by unlocking the genetic potential of underutilized crops. The primary focus has been on a suite of ancient cereals and pseudo-cereals which are riding on the gluten-free trend, including, among others, grain amaranth, buckwheat, quinoa, teff, and millets. Each of these crops has demonstrated tolerance to various stress factors such as drought and heat. Apart from being the centuries-old staple in their native homes, these crops have also been traditionally used as forage for livestock. This review summarizes what lies in the past and present for these underutilized cereals, particularly concerning their potential role and significance in a rapidly changing world, and provides compelling insights into how they could one day be on par with the current big three in feeding a booming population.
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2.
Prevalence and concentration of ochratoxin A, zearalenone, deoxynivalenol and total aflatoxin in cereal-based products: A systematic review and meta-analysis.
Mousavi Khaneghah, A, Fakhri, Y, Raeisi, S, Armoon, B, Sant'Ana, AS
Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association. 2018;:830-848
Abstract
This study aimed to estimate the prevalence and concentration of total aflatoxin (TAF) ochratoxin A (OTA), zearalenone (ZEN) and deoxynivalenol (DON) in bread, cornflakes, breakfast cereals and pasta-based products through meta-analysis. The required databases including (PubMed and Scopus databases) were investigated to collect data on the concentration and prevalence of mentioned mycotoxins in cereal-based products. Among 2461 explored articles in identification step, 38 articles with 9627 samples were included in the conducted meta-analysis. The prevalence and concentration of studied mycotoxins varied with the cereal-based food studied. In this context, the overall rank order of mycotoxins prevalence in the cereal foods was OTA > DON > ZEN > TAF > 15-ADON > 3-ADON. Also, the overall rank order of mycotoxins based on concentration in the cereal foods investigated was DON > ZEN > 15-ADON > OTA > 3-ADON > TAF. The findings of this meta-analysis may be useful for the building of risk assessment models aiming to derive data for the development of specific actions to reduce the exposure to OTA, ZEN, TAF, and DON through the consumption of the cereal-based products.
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3.
Impact of unit operations during processing of cereal-based products on the levels of deoxynivalenol, total aflatoxin, ochratoxin A, and zearalenone: A systematic review and meta-analysis.
Mousavi Khaneghah, A, Fakhri, Y, Sant'Ana, AS
Food chemistry. 2018;:611-624
Abstract
The study aimed to perform a meta-analysis on the fate of ochratoxin A (OTA), zearalenone (ZEN), deoxynivalenol (DON) and total aflatoxin (TAF) during steps of bread and pasta-based products processing. A total of twenty and eight articles (549 data) collected from 1983 through June 2017 were included. Some of the investigated processing such as milling and fermentation caused an increase in the concentration of DON and TAF; although they reduce the concentration of ZEN and OTA. Also, heat processing (cooking) decrease the DON, OTA, and TAF and increase the concentration of ZEN in bread. Cooking reduces the concentration of DON and ZEN in the biscuit. Cooking of pasta reduces the content of DON; however, it increases the concentration of TFA. The findings showed that the mycotoxins and their fate were influenced differently by the unit operations steps involved in the preparation of the different cereal-based products.
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4.
Health-related effects and improving extractability of cereal arabinoxylans.
Fadel, A, Mahmoud, AM, Ashworth, JJ, Li, W, Ng, YL, Plunkett, A
International journal of biological macromolecules. 2018;:819-831
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Abstract
Arabinoxylans (AXs) are major dietary fibers. They are composed of backbone chains of β-(1-4)-linked xylose residues to which α-l-arabinose are linked in the second and/or third carbon positions. Recently, AXs have attracted a great deal of attention because of their biological activities such as their immunomodulatory potential. Extraction of AXs has some difficulties; therefore, various methods have been used to increase the extractability of AXs with varying degrees of success, such as alkaline, enzymatic, mechanical extraction. However, some of these treatments have been reported to be either expensive, such as enzymatic treatments, or produce hazardous wastes and are non-environmentally friendly, such as alkaline treatments. On the other hand, mechanical assisted extraction, especially extrusion cooking, is an innovative pre-treatment that has been used to increase the solubility of AXs. The aim of the current review article is to point out the health-related effects and to discuss the current research on the extraction methods of AXs.
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5.
Breeding Major Cereal Grains through the Lens of Nutrition Sensitivity.
Yu, S, Tian, L
Molecular plant. 2018;(1):23-30
Abstract
Cereal grains are the common food staples that collectively provide over 50% of dietary calories and proteins for the world's population. Although the Green Revolution has greatly increased the yield of commercial cereal crops, they often lack nutrients essential for human health in the edible tissues. In developing nutrition-sensitive agriculture, the nutritional quality of cereal grains has been a major target for improvement using breeding and biotechnology approaches. This review examines recent progress on biofortification of micronutrients (provitamin A and folates) and an essential amino acid (lysine) in three major cereal grains, wheat, rice, and maize, through plant breeding. In addition, how natural variations, induced mutations, and the advanced genome-editing technologies can be applied to improving the nutrient content and stability in these cereal grains are discussed. High-yield cereal crops pyramided with improved (micro)nutrient contents hold great promise to meet the increasing demand of nutritionally limited populations and to contribute to achieving sustainable nutrition security.
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6.
Exploring and exploiting the boundaries of host specificity using the cereal rust and mildew models.
Dracatos, PM, Haghdoust, R, Singh, D, Park, RF
The New phytologist. 2018;(2):453-462
Abstract
Individual plants encounter a vast number of microbes including bacteria, viruses, fungi and oomycetes through their growth cycle, yet few of these pathogens are able to infect them. Plant species have diverged over millions of years, co-evolving with few specific pathogens. The host boundaries of most pathogen species can be clearly defined. In general, the greater the genetic divergence from the preferred host, the less likely that pathogen would be able to infect that plant species. Co-evolution and divergence also occur within pathogen species, leading to highly specialized subspecies with narrow host ranges. For example, cereal rust and mildew pathogens (Puccinia and Blumeria spp.) display high host specificity as a result of ongoing co-evolution with a narrow range of grass species. In rare cases, however, some plant species are in a transition from host to nonhost or are intermediate hosts (near nonhost). Barley was reported as a useful model for genetic and molecular studies of nonhost resistance due to rare susceptibility to numerous heterologous rust and mildew fungi. This review evaluates host specificity in numerous Puccinia/Blumeria-cereal pathosystems and discusses various approaches for transferring nonhost resistance (NHR) genes between crop species to reduce the impact of important diseases in food production.
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7.
[Antioxidant effect of the fibre content of foods].
Mézes, M, Erdélyi, M
Orvosi hetilap. 2018;(18):709-712
Abstract
Antioxidants have some health benefit, but up to now there was less attention paid to the antioxidant properties of dietary fibre. The antioxidant effect of dietary fibre is based on the polyphenol compounds bound to polysaccharide complexes, which are released in the gut and functioning as antioxidants. Another type of antioxidant, calcium fructoborate was also isolated from plant cell wall. It has a marked antioxidant capacity, however, its active component is not a polyphenol, but the boron. There are lots of food plants which have relatively high antioxidant dietary fibre content, thus they support the antioxidant defence of the gastrointestinal tract, and consequently the whole body. The important ones in human nutrition are for instance cereal grains, cabbage, grape pomace, coffee bean or guava. There are different polyphenol compounds in the antioxidant dietary fibres in the plants, therefore their antioxidant capacity varies, but it is approximately equivalent to 50-100 mg DL-α-tocopherol per gram. This antioxidant capacity is considerable, and would be suitable for the prevention of some, oxidative stress-related diseases, such as atherosclerosis or other cardiovascular diseases, and colorectal carcinoma. Orv Hetil. 2018; 159(18): 709-712.
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Process optimization of the extraction condition of β-amylase from brewer's malt and its application in the maltose syrup production.
Niu, C, Zheng, F, Li, Y, Liu, C, Li, Q
Biotechnology and applied biochemistry. 2018;(4):639-647
Abstract
β-Amylase is of important biotechnological aid in maltose syrup production. In this study, the extraction condition of β-amylase from brewer's malt and the optimal dosage of β-amylase in maltose syrup production were optimized using response surface methodology and uniform design method. The optimal extraction condition of β-amylase from brewer's malt was composed of 1:17 (g/v) material/liquid ratio, 44°C extraction temperature, pH 6.4 buffer pH, 2.3 H extraction time, and 1.64 g L-1 NaSO3 dosage with a predicted β-amylase activity of 1,290.99 U g-1 , which was close to the experimental β-amylase activity of 1,230.22 U g-1 . The optimal dosages of β-amylase used in maltose syrup production were 455.67 U g-1 starch and its application in maltose syrup production led to a 68.37% maltose content in maltose syrup, which was 11.2% and 28.9% higher than those using β-amylases from soybean and microbe (P < 0.01). Thus, β-amylase from brewer's malt was beneficial for production of high maltose syrup.
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9.
Effect of filamentous fungi fermentation on the extractability and physicochemical properties of β-glucan in oat bran.
Wu, J, Jin, S, Wu, S, Chen, Y, Chen, R
Food chemistry. 2018;:122-128
Abstract
Oat bran was fermented by filamentous fungi to improve the extractability of β-glucan. Box-Behnken experimental design and response surface methodology were used to obtain the maximum extractability of β-glucan. Inoculum volume, fermentation temperature, and time were evaluated as three variables. Under optimal fermentation conditions, the extractability of β-glucan in oat bran increased to 45.57 ± 1.82% and 51.10 ± 2.32% by Aspergillus niger and Rhizopus oryzae, respectively. The extractability was about 3-fold of that before fermentation (16.86 ± 0.76%). Fermentation of oat bran by Aspergillus niger and Rhizopus oryzae reduced the molecular weight of the extracted β-glucan from 6.74 × 105 to 2.84 × 105 and 2.20 × 105 Da, respectively. Correspondingly, the apparent viscosity of the extracted β-glucan decreased after fermentation. But the increased extractability compensated for the reduced molecular weight in the formation of viscous solution. The molecular structure and cellotriosyl/cellotetraosyl ratio were not affected by filamentous fungi fermentation.
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10.
Gluten sensitivities and the allergist: Threshing the grain from the husks.
Burkhardt, JG, Chapa-Rodriguez, A, Bahna, SL
Allergy. 2018;(7):1359-1368
Abstract
"Gluten sensitivity" has become commonplace among the public. Wheat allergy (WA) and celiac disease (CD) are well-defined entities, but are becoming a fraction of individuals following a gluten-free diet (GFD). Wheat allergy has a prevalence of <0.5%. Wheat, specifically its omega-5 gliadin fraction, is the most common allergen implicated in food-dependent, exercise-induced anaphylaxis. CD is a non-IgE hypersensitivity to certain cereal proteins: gluten in wheat, secalin in rye, hordein in barley, and to a lesser extent avenin in oat. It is a rare disease, with an estimated prevalence that varied widely geographically, being higher in Northern Europe and the African Saharawi region than in South-East Asia. In addition to suggestive symptoms, serologic testing has high diagnostic reliability and biopsy is a confirmatory procedure. Patients with CD have extra-intestinal autoimmune comorbid conditions more frequently than expected. A third entity is nonceliac gluten sensitivity, which has been created because of the increasing number of subjects who claim a better quality of life or improvement of their variety of symptoms on switching to a GFD. The phenomenon is being fueled by the media and exploited by the industry. The lack of a specific objective test has been raising substantial controversy about this entity. Allergists and gastroenterologists need to pay attention to the multitudes of individuals who elect to follow a GFD. Many such subjects might have WA, CD, or another illness. Providing them with appropriate evaluation and specific management would be of great advantages, medically and economically.