Designer foods can be defined as food items which are designed to deliver health benefits beyond their nutritional value. These can be considered as functional or fortified foods and usually contain additional components or qualities that can be tailored for the treatment and prevention of various diseases. Designer foods are also consumed for their enhanced flavor and can be utilized to combat food scarcity. There is also a global concern regarding the health hazards of chemicals used in modern foods as additives, antioxidants, colorants, flavors and preservatives, some of which have potential harmful effects. Rising health concerns amongst consumers have led to an increasing demand for food items supplemented with natural and healthy ingredients. In addition to their health benefits, designer foods which are either totally microbially-derived or contain ingredients of microbial origin can also provide a solution to the harmful effects of chemicals. The advent of microbial-biotechnology and fermentation technology has expanded the production of designer foods using microorganisms, including the replacement of animal proteins with vegan proteins and colorants derived from microbial pigments. Microbial Based Designer Foods discusses the development, preparation, economics and future prospects of designer foods produced using microorganisms and utilizing ingredients of microbial origin. The text also focuses on the global regulatory status of these designer foods, offering deep insight to the researchers, food technologists and students interested in the development of designer foods which act as a solution to food scarcity and deliver health benefits to consumers. The main topics covered are:
Biotechnological and microbiological processes for improvement of food production including suitable research examples Characterization and improvement of designer foods for health promotion and disease prevention Development and standardization strategies for designer foods and ingredients produced through biotechnological interventions Economic values, global regulatory status, prospects and future of designer foods produced using micro-biotechnological methods
For researchers and food technologists seeking a comprehensive single source for up-to-date information on microbial based designer foods, this text presents the full picture on this increasingly popular and important food type.
Microbial Designer Foods: Role in Nutrition, Disease Prevention and
treatment.- Microbial based preservatives: a recent approach for food
preservation and safety.- Probiotics, Prebiotics and Synbiotics formulations
as Microbial Designer Foods.- Microbial Exopolysaccharides: Techno-Functional
Applications in Next-Generation Food.- Squalene production from
thraustochytrids - Status and outlook.- Microbial Nutraceuticals: A
Revolution against Antimicrobial Resistance.- Designing Functionalities of
Foods Through Microbes: Anti-oxidants, Aroma, Color and Flavor of Microbial
Origin.- Protein engineering: strategies and applications in microbial based
food production.- Microbial Foods: A Futuristic and Sustainable Source of
Omega-3 Fatty Acids.- Microbial Meat Substitutes As Sustainable Supplements
For Human And Animal Feed.- Microalgal biomass for food security: Current
status and future perspectives.- Biosurfactants from Extremophiles: a green
alternate in the food production and processing industry.- Microbial cells or
components as edible films & coatings: A Revolutionary approach in Food
Industry.- Influence of Microbial based Designer foods on Gut and Brain
Health.
Dr. Seema Rawat is a Professor and Dean in School of Life Sciences at Central University of Gujarat in Vadodara, Gujarat, India. She obtained her Masters and Doctoral degrees in Microbiology from G.B. Pant University of Agriculture & Technology, Pantnagar, Uttarakhand, India. She worked on the microbial diversity of mushroom compost along with characterization of enzymes of thermophilic fungus and their biotechnological applications including improvement of the yield of mushroom during her doctorate degree. Thereafter, she joined as post-doctoral fellow in Indian Institute of Technology, Delhi, India where she worked on recombinant proteins. She has received many scholarships and awards during her academic journey like B.S. Narasinga Rao award for presentation of her doctorate work in SBC conference. Her current research encompasses microbial diversity and their biotechnological applications, cellular microbiology with special emphasis upon bacterial virulence factors, mechanisms of pathogenesis, and antimicrobial resistance. She has served as Principal Investigator and Co-Principal Investigator in Uttarakhand State, UGC and ICMR funded projects. She has published over 100 research articles, authored five books, and contributed to numerous book chapters. She is an active member of several scientific societies and serves as reviewer for various national and international journals.
Dr. Tripti Malik is an Associate Professor of Microbiology at Dolphin (P.G.) Institute of Biomedical & Natural Sciences in Dehradun, Uttarakhand, India, with over two decades of teaching and research experience in microbiology and biotechnology. Dr. Maliks research expertise spans microbial biotechnology, essential oils, functional foods, antimicrobial packaging, bioremediation, and sustainable bio-based innovations. She has served as Principal Investigator and Co-Principal Investigator on several central and state governmentfunded research projects, supported by agencies such as DBT and the Government of Uttarakhand. Her work emphasizes the application of microbial and phytochemical resources for food safety, environmental sustainability, and health-related applications. She has published extensively in reputed international journals and book series and has edited scholarly volumes with leading publishers. Her contributions also include book chapters on functional foods, essential oils, wastewater treatment, and microbial valorization of waste. She is an active reviewer for international journals and a member of several professional scientific bodies. She is also actively engaged in science communication and mentoring through invited lectures, workshops, and digital platforms.
