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IJFF - Volume 10 - Issue 1

[<<< GO BACK ][ VOLUME 10 - ISSUE 1 ]

Title: Contents Vol. 10, No. 01, June 2021
Abstract :
Title: Cereal-based Fermented Foods for Enhanced Nutritional Attributes and Better Gut Health
Abstract :

Cereal grains are known to be one of the most important dietary resources of nutrition in all over the world. Cereal are considered inferior in terms of nutritional and sensorial quality as compared to other foods. Several approaches have been recommended to enhance the nutritional qualities of cereals, however, the best one is fermentation. Fermentation, had been reported to improve sensory and nutritional quality of cereals. Generally, natural lactic fermentation of cereal results in a decrease in carbohydrates content together with increase in some amino acids and B-group vitamins. Further, fermentation results in reduction of antinutritional factors, leading to an increment in mineral availability and protein and starch digestibility. Traditionally, cereal based fermented foods are prepared from most commonly available cereals grains using natural fermentation involving mixed cultures of yeasts, bacteria and fungi. Several of them are used as side dish, breakfast and light meal, and main foods. The microbiology of several of this commonly consumed cereal based fermented foods is quite complex and unknown. Probiotic microorganisms are well known for their multipurpose health beneficial effects. Mostly dairy products had been used as substrate for probiotics for years. Recent times cereals are gaining popularity as a probiotic delivery vehicle due to their inherent attributes. Cereal grains can serve as a suitable carrier matrix of probiotic cultures by supporting the growth and survival of organisms. The current review focuses on some traditional cereal based fermented foods, potential of cereal grains to use as growth medium of probiotic cultures and finally, newly developed non-dairy probiotic food products.

Title: Functional Aspects and Potential Applications of Weissella Species in Food and Health
Abstract :

Weissella species are Gram-positive, non-spore-forming, catalase-negative, obligate heterofermentative lactic acid bacteria. They inhabit nutrient rich environments and can be isolated from a variety of sources and different fermented foods. They possess functional and technological attributes which can be of use in the safety, nutritional and sensory characteristics of foods. Among the members of this genus, Weissella cibaria and Weissella confusa have been described as high producers of exopolysaccharides and oligosaccharides, and hence exhibit texturizing properties. Several Weissella species isolated from food and animal sources are reported to possess various health promoting effects like cholesterol reduction, antioxidant activity, immunomodulatory effect, oral health promoting effects and anticancer effects.

Title: Substitution of Sucrose in Lassi by Tagatose as a Sweetener
Abstract :

In the era of reduction in sugar consumption, availability of suitable alternative sweeteners is highly desirable. But to find an ideal substitute of sucrose remained destined dream. Tagatose is now is emerging as very promising substitute of sucrose for use as a sweetener. Therefore, in present study suitability of tagatose evaluated as a sweetener in Lassi. The findings of the study suggested that Lassi prepared by substituting sucrose by tagatose or its blend with sucrose or fructose was very well acceptable in sensory evaluation. Tagatose was able to substitute sucrose in Lassi without any changing the process parameter. Proximate composition, physicochemical properties and microbial counts of the sucrose substituted Lassi were more or less similar to corresponding products prepared by using sucrose as a sweetener. Shelf-life of the sucrose substituted Lassi was also similar to corresponding Lassi prepared by using sucrose as a sweetener.

Title: Technological Challenges for Future Probiotic Foods
Abstract :
In the modern era, people are interested in personal health and they take the food which is healthy and gives immunity to our body. Most people prefer functional foods which contain probiotics or live microbes. The market for probiotics has grown as demand for food and drinks, as well as dietary supplements and health awareness, has expanded. Between 2021 and 2027, the probiotics market is predicted to increase at an annual pace of 8.7%, surpassing USD 4.30 billion. New product development with probiotics as the key supplement in it can also increase the growth of probiotics in the functional food markets.
Generally Recognized as Safe (GRAS) probiotic strains must be used in the production and the strains used should have stability and viability. Probiotic bacteria which have acid and heat tolerance and could withstand the conditions in the gastro intestine must be selected in the market. Before reaching the consumer, the manufacturer must ensure that all technological requirements have been met and that probiotics will survive throughout the product’s production and storage. They must be acid, bile, and heat resistant, as well as viable and survive in the gastrointestinal environment. The most used delivery system of probiotics are dairy products but ice creams, chocolates, and certain beverages could also be used as carriers.
The future of the probiotic industry depends on the finding and implementation of new techniques which could increase the viability and shelf-life of the probiotic bacteria in our food. RBGR methodology is used to identify the heat-tolerant strains. Microencapsulation is a cutting-edge technology that solves the challenge of heat-tolerant strains surviving in severe environments. Novel production of probiotics in different foods and pharmaceuticals will provide new possibilities and new technologies. And hence maintaining low-cost productivity will be a great challenge with the new technologies being introduced.
Title: β-Galactosidase: Application in Dairy and Food Industry
Abstract :

β-galactosidase is an enzyme which is highly important in dairy industry. The purpose of the enzyme is the hydrolysis of lactose. In addition to that it has other food applications. Due to the increasing incidence of lactose intolerance, this enzyme is gaining importance commercially. Many advancements have come with respect to this production of enzymes like biotechnological innovation and immobilization.