Bioprospecting of Microorganism-Based Industrial Molecules. Группа авторов

Bioprospecting of Microorganism-Based Industrial Molecules - Группа авторов


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target="_blank" rel="nofollow" href="#ulink_602fee12-e0f8-57f7-a85a-903a72888a5b">Table 3.2 Applications of microbial gums.

Microbial gum Application Properties References
Xanthan Food Hydrocolloid Viscosifier, stabilizer and emulsifier [28]
Xanthan Fat replacer Viscosifier, and emulsifier [29]
Gellan Food Hydrocolloid Gelling, suspending and stabilizing agent [31]
Welan Cement technology Viscosifier [3]
Welan Oil drilling industries Viscosifier [3]
Rhamsan Food Hydrocolloid Viscosifier, high salt tolerance [21]
Diutan Cement technology Viscosifier [22]
Pullulan Food Additive Prebiotic [35, 39]
Pullulan Edible films, capsule shells and tablet coatings Non‐toxic, film‐forming gels [12]
Curdlan Fat replacer Viscosifier, ability to form thermo‐irreversible gel [6]
Levan Sweeting agent Sugar containing viscosifier [12]
Levan Cosmetic products Moisturizing, cell proliferation and anti‐inflammatory effects [12]
Dextran Food Hydrocolloid Viscosifier, stabilizer and emulsifier [26]
Xanthan and curdlan Edible film in food packaging Excellent miscibility and high tensile strength [40]
Gellan Hydrogel for bone regeneration Bio‐compatible, bio‐degradable, non‐toxic [41]
Pullulan and hyaluronic acid Hydrogel for wound healing Bio‐compatible, bio‐degradable, non‐toxic [42]
Xanthan and welan Nanoemulsions for delivery of bioactive compounds Emulsifier [43]

      3.6.1 Food Applications

      Studies on the impact of different gums in goat milk were conducted by accessing the textural and microbial properties of yogurt using xanthan, carrageenan, locust bean gum, gaur gum, and modified starches. The yogurt samples containing both xanthan and locust bean gum showed superior properties than the control sample, such as enhanced firmness, consistency, cohesiveness, and viscosity. The gums supplemented also showed bifidogenic activity enhancing the growth of Bifidobacterium animalis Bb12 [4].

      In recent times, dextran from LAB genus Weissella has been utilized as a natural food hydrocolloid to prepare high‐fiber containing bread and gluten‐free bread [26]. In situ dextran production by Weissella confusa A16 in wholegrain sorghum bread containing 50% wheat flour resulted in the improved texture of the bread. In situ production by Weissella confusa A16 resulted in 0.56% dextran of bread weight. It helped in masking undesirable flavors of wholegrain bread [44].

      Microbial gums have been recently utilized as edible films in food technology resulting in a nontoxic, biocompatible, and biodegradable alternative to synthetic plastic films. The functional properties of the edible films can be enhanced further by the blending of microbial gums with lipids, hydrocolloids, or reinforcement agents [2]. Edible films composed of cassava starch and different microbial gums like xanthan, gellan, and pullulan were obtained by casting, and various properties were evaluated. Gellan gum was found to be most suitable for this purpose with the concentration of 10–20% blend by enhancing the film strength and resistance to breaking and preserving films against starch retrogradation throughout the storage time and reducing the moisture sorption capacity of starch films while reducing water vapor permeability [45]. Edible film blends were prepared using different ratios of xanthan and curdlan. Blends of xanthan and curdlan in a ratio of 5:5 and 4:6 showed excellent miscibility and high tensile strength. It confirmed that the blends of edible film have great potential as food packaging material [40].

      Microbeads from whey protein isolate and gellan gum were used as a carrier for bioactive compounds of flaxseed. The encapsulation of flaxseed oil (15%) resulted in a controlled release only in the small intestine and was able to pass the gastric barriers without any modifications. This directed release of the bioactive compound can improve their bioavailability and functionality [46].

      3.6.2 Biomedical Applications

      Gellan gum hydrogel with magnesium‐enriched calcium carbonate, calcium carbonate, and magnesium carbonate using urease‐mediated mineralization was used for bone regeneration application [41]. Bioactive molecule curcumin was


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