26^th World Congress on Industrial Biotechnology November 20-21, 2021 Chicago, USA

Modern Biotechnology is helpful in enhancing taste, yield, shell life and nutritive values. This is also useful in food processing (fermentation and enzyme involving processes). So Biotechnology is beneficial in erasing hunger, malnutrition and diseases from developing countries and third word.

The biotechnology or industrial microbiology emphasis focuses on the roles that microorganisms play in industrial production, food production and other man-made environments. This program gives you a strong foundation in: Environmental microbiology. Food microbiology.

The circular economy is –

Model of production and consumption.

It involves-

Sharing

Leasing Reusing

Repairing

Refurbishing

Recycling existing materials and products.

The industrialization of biology offers far-reaching benefits at both the worldwide and therefore the national scale. Today, the main target is to enhance efficacy and robustness of microbial cell factories, suitable for industrial production of products in health industry. Strain engineering is to be done to enhance the prevailing either by mutagenesis or advanced targeted methods. If Industrial Biotechnology is employed to its full potential, it might be the simplest tool towards a sustainable bio-economy.

A treatment management system that uses natural organisms to get rid of or neutralize pollutants and covert into less toxic or non-toxic substances called bioremediation. For a successful and effective bioremediation, the system needs an accurate balance of the favourable temperature and nutrient content. It is an economical method in comparison to other pack up techniques, because it doesn't need an excellent deal of kit or labour.

Algae are the ‘green gold’ of the longer term bio-economy as they became a valuable and sustainable feedstock for varied industries contributing to the bio-sustainability. Their application varies from biofuels, food additives, animal feed, novel food, bio-plastics, cosmetics, bio-fertilizers or CO2 utilization and lots of more. The market is rapidly expanding, and it's still not reached its full potential. Scientists are performing on new technologies and price optimization to proportion pilot projects to industrial production for a far better green and clean future.

Cell & Gene Therapy Bioprocessing  & Commercialization-

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  Optimize the process


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  Manufacturing capabilities and analytical strategies


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  Accelerate preclinical studies


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  Products into the clinic with case studies from different companies.

Marine Biotechnology also known for the Blue biotechnology.

Securing industrial products and processes by synthesizing-

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  Proteins


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  And enzymes

Marine biotechnology may include techniques such as-

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  Bioprocessing


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  Bio-harvesting


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  Bio-prospecting


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  Bioremediation using bioreactors.

Marine derived enzymes are used in beauty industry.

Algae and micro Algae are used in biofuel production.

In food system, The agriculture-food industry plays a vital role. The main objective of this is to feed the entire population of this world , mostly through the market relationship chain. The food system  varies by country with in the agriculture-food industry.

Techniques like-

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  Genetic engineering


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  Molecular markers


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  Molecular diagnostics


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  Vaccines and tissue culture

 are used by agricultural science for alteration of  genes in living organisms including plants, animals, and microorganisms.

Industrial Biotechnology implies the  use of  living cells such as bacteria, yeast, algae or components of the cells like enzymes to generate the products of industrial importance.  It is the most advantageous  processes/methods  to control some  serious problems of modern industry.  Session includes  the latest  research which qualify  to use renewable raw materials and can contribute to lowering greenhouse gas emissions and stirring away from a petrochemical-based economy.

The facility of Nature is harnessed by Synthetic biology researchers and corporations round the world to unravel problems in medicine, manufacturing and agriculture. It is the idea for the invention and style of biological catalysts for industrial application. A unique ethical concern about synthetic biology is that it's going to end in the creation of entities which fall somewhere between living things and machines.

Bio-plastics can help-

Reduce reliance on fossil fuels

Support sustainability in the industry

And allow manufacturers to diversify feedstock.

Biopolymers  are the distinctively classified as the group of materials under which bio-plastics are included as Plastics are replaced with bio-plastics and also they-

Pollute environment

Pose a danger to wildlife

 They do not degrade quickly.

According to new research , it is found that Bio-plastics are just as toxic as ordinary plastics. Lets see what new comes with this session.

When it comes to the Bioreactor, then its design have much importance as it plays a vital role in Bioprocessing and Upstream processing. Its simple design makes it possible to control the degree of shear uniformly within a reactor (critical to cell growth).

Biodegradable sources-

Wastes from municipal

Food

Agricultural

Biomass. 

These Biodegradables are the source of production of  Renewable energy. Bioenergy Research plays an important role in research related to biomass, biofuels and bioenergy.

Bio-renewable resources-

Food

Bio-products

And bioenergy.

The utilization of biomass energy in our various fields can minimize our greenhouse gas emission. It’s feed stocks are profitable for the agricultural industry.

Role of Biomaterials in medicine industry includes-

Heart valves

Stents and grafts

 Artificial joints

 Ligaments and tendons

Hearing loss implants

Dental implants

And Nerves stimulation devices.

Biomaterials has application in fields like dental applications, surgery and drug delivery.

Bio-catalysis is referred as the process to speed up the rate of any chemical reaction.  Bio-catalysis depends on-

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  Protein engineering


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  Enzyme immobilization.

Role of  Immobilization can be extra-ordinary in adoption of Bio-catalytic processes.  By switching to bio-catalysis as the main technology For chemical production, we can switch to Bio-catalysis as it leads to-

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  green processing


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  Reduces pollution and cost


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  Help towards bio-economy.

In Industrial Biotechnology, Enzymes have much importance as they are the foundation of  bio-based products like-

Chemicals

 Ingredients

 Detergents

 Materials and biofuels.

Enzyme technology is the fundamentals or foundation of  Industrial Biotechnology. Quick technological growth is now refreshing the chemistry and pharmaceutical  industries to embrace enzyme technology. Microbial biotechnology is referred as any experimental application that uses microbiological systems, microbial organisms or their derivatives, to manufacture or modify products or processes for specific uses.  The development of quick and affordable genomics technologies and accompanying bioinformatics tools, and of high resolution analytical and imaging instruments,  has provided new impulses to the field and opened new direction of application, one of which is micro-biome engineering.

Bioprocessing is the backbone of research  findings of life sciences into useful industrial product . The most important  growth  enhancer  in the global bioprocess technology market are the notable growth in the biopharmaceutical  industry enhancing  thrust on research and development,  high  demand for vaccine, and growth  in the field of technology. Improvisation  in modern  techniques will lead to bio-manufacturing industries for a great  circular bio economy.