1 MICROBIAL TAXONOMY Phenotypic Analysis Genotypic Analysis.
Bioinformatics Approaches in Food Industry...collection RFPL markers for detection of genotypic...
Transcript of Bioinformatics Approaches in Food Industry...collection RFPL markers for detection of genotypic...
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BIOINFORMATICS APPROACHES IN FOOD INDUSTRYCONTRIBUTION TO THE INCREASE OF QUALITY AND NUTRITIONAL VALUE OF
FOOD
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WHY WE NEED BIOINFORMATICS FOR FOOD?
• Nutrition plays important role in halting the growth of
various chronic disease
• Efforts in encouragement and increase of the nutritional
potential and quality of food sources
• Bioinformatics in food contributes to store and keep
updating the vast amount of biological data and resources
which are important to food and nutritional sciences
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DETECTION OF ALLERGEN
• Bioinformatics - the most necessary resource
for food allergen related studies
• Databases dedicated to the food allergen
focusing on food:
• AllerMatch
• Informall FARRP Allergen database
• SDAP
• Bioinformatics for allergen diagnostic
development
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BIOINFORMATICS IN ENSURING QUALITY TASTE AND SAFETY OF FOOD
• Bioinformatics - important role in:
• Ensuring the quality taste flavour of the food while maintaining its safety
• Essential role in study of evolution of receptors for taste
• electronic database with the chemical properties of various compounds
related to their taste and flavor
• determining the source of the food-borne illness: detection of the
bacterial food pathogens and prediction of growth of microbes within a
given food source
• ensuring food quality through detection of various properties of food
automatically
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UNCOVER BIOACTIVE PEPTIDES
• Bioinformatics developed softwares are used to generate profiles for in silico
peptides resulted from the stimulation of proteolytic specificities of various
enzymes
• Various in silico tools for proteolysis are:- BIOPEP ExPASY and PoPS
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BIOINFORMATICAL APPROACH IN CROP PRODUCTION
• Cocoa (Theobroma cacao) - used as a raw material for almost
every food product containing chocolate
• Implementation of DNA fingerprinting in screening of plant
collection RFPL markers for detection of genotypic connection
between breeds and identification of more than 300 markers
• increase the possibility to select desired traits in early stage of
plant’s development on basis of genotype and phenotype –
finding seeds of higher quality and good
• flavor
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BIOINFORMATICAL APPROACH IN FOOD PROCESSING
• Implementation of bioinformatics in food processing -
optimizes the quantitative and compositional parameters
of traditional operations
• Precise and apt assessment of biomaterial properties of
each of the molecules in complex mixtures
• The constructional features of living organisms that are
being researched and examined with the aid of
bioinformatics affect the new food processes and food-
products
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CONCLUSION
• Bioinformatics an important area in the food industry
• Using bioinformatics tool kit to genetically engineer
transgenic plants to obtain healthy nutritious and
beneficial foodstuffs
• All the fields of food industry will benefit from the
efficacy, efficiency, accuracy, and speed that the
bioinformatics provides