Biotechnology has the ability to solve the upcoming problems of the world’s increasing population. However, there is often reluctance among the public to accept and support biotechnological products in medicine, industry, or agriculture. There are many safety and ethical issues raised for GM crops and human cloning. Raising transgenic animals and plants has fueled ethical concerns. Thus, biosafety and bioethics are continuously being expanded to combine the rationale of ever-increasing scientific knowledge in biotechnology that is often in conflict with the long-standing social and moral value system of our society

Bioenergy is sustainable imperativeness which is gotten from natural sources. Biomass is portrayed as living or starting late dead living creatures and any plant or animal. With respect to biomass essentialness, nevertheless, the term implies those yields, stores, and other natural materials that can be used as a substitute for fossil powers in the age of imperativeness and distinctive things. Plant or algae material or animal waste and considered to be a source of renewable energy, unlike fossil fuels such as petroleum, coal, and natural gas. Biofuels can work as an alternative to replacing energy needs from vehicle fuel to central home heating. Biofuel is commonly advocated as a cost-effective and environmentally friendly as other increase concern over global warming due to fossil fuels.

• Liquid & Gaseous Biofuel
• Renewable Energy
• Biofuels & Biogas
• Processes for Bioenergy

The dental world will live in ten years more changes than 130 years of practice.The arrival of digital combined with the generalization of successful surgical techniques such as implantology, the ever more relevant information of patients, the economic crisis: all these factors tend to modify the exercise habits of the usual actors of the dental world, prosthetists and dentists. Biotech Dental has contributed to the democratization of implantology, the use of new aesthetic products and services and finally the introduction of new digital technologies. The distribution of  Biotech Dental products have an extensive presence in most of the world. This international situation gives us the opportunity to meet the expectations and requirements of surgeons and practitioners from different cultures and backgrounds, Biotechnology Conferences.

• Nanomaterials
• Tissue Engineering
• Nanorobotics
• Nanodentistry
• Osseointegration

Artificial intelligence (AI) is the simulation of human intelligence methods through machines, especially computer systems. Pharma industries implementing artificial intelligence for higher productivity, improved efficiency, and faster production of life-saving drugs.

• Quality control
• Waste reduction
• Design optimization
• Process automation
• Pharma packaging

Medical biotechnology defines study of cell materials and living cells to research and develops indicative and pharmaceutical analyses that help treat and prevent human infections. The medical biotechnology field has conveyed to microbial pesticides, genetically modified crops, and natural procedures Biomedical engineering is the application of engineering principles and design concepts to medicine and biology for healthcare purposes (e.g. diagnostic or therapeutic). This field seeks to close the gap between engineering and medicine, combining the design and problem solving skills of engineering with medical biological sciences to advance health care treatment, including diagnosis, monitoring, and therapy. Much of the work in biomedical engineering consists of research and development, spanning a broad array of subfields, Biotechnology Conferences. Therapeutic Biotechnology tremendously affects addressing the necessities of patients and their families as it not just includes pharmaceuticals and diagnostics that are made utilizing a biotechnological procedure, but also in quality and cell treatments and tissue built items. Monoclonal Antibodies

• Biomedical Innovations
• Viral Vector producing for sequence Therapies
• Pharmacogenomics
• Tissue engineering & regenerative medicine

Marine biotechnology, sometimes referred to as “blue biotechnology”, exploits the diversity found in marine environments in terms of the form, structure, physiology and chemistry of marine organisms, many of which have no equivalent on land, in ways which enable new materials to be realised. The Exploitation of Biotechnology for drug discovery including enzymes, antibiotics, biopolymers and chemical compounds from marine sources. Marine biotechnology is an opportunity recognised by policy makers and the enterprise sector as offering significant potential to fill market gaps for new products, Biotechnology Conferences.

• Aquatic Microbial Ecology
• Oceanography
• Aqua Culture Biotechnology
• Biotechnology in fish breeding
• Biotechnology and fish health management

Cosmetics have an impact of Biotechnology in many ways. Cosmetics manufacturing companies use biotechnology both to discover and manufacture components of cosmetics and to evaluate the effects of natural and synthetic compounds on skin and skin changes associated with aging.

• Botox.
• Use of biotechnology-derived ingredients
• Genetic profiling
• Skin care
• Biofermentation

Bioimaging is a field of biomedicine and bioengineering that includes the advancement and utilization of imaging technologies and computational software tools in the production of pharmaceutical specimens. Biomarkers is a biological molecule detected in blood or other body fluids, or tissues is a sign of a common or unusual process, or a condition or disease. A biomarker may be used to examine wherewith the body reacts to medication for a disease or condition. A biosimilar drug has a structure that is similar but not exactly the same, as a brand name biologic drug that already approved.

• Magnetic resonance imaging (MRI),
• Subclinical manifestation,
• DNA sequence
• Functional imaging  
• Ultrasound imaging
• Clinical trails
• Computed tomography
• Positron emission tomography (PET),
• Bio imaging techniques

Pharmacogenomics is the study of genes and their functions that affect a person's response to drugs. The genetic makeup of a personal affects response to medication is analysed by Pharmacogenomics. Personalized medicine is a customized medical treatment to the individual features of each patient. Rapid advancing field is Pharmacoproteomics during which the techniques of genetics square measure applied to develop pharmaceutical agents. The impact of illness or medication will substitute for far more advanced assays in pharmacodynamics at a lower price in time, financial output,and clinical risk within the study is that the full set of proteins usage.

• New approaches
• Warfarin sensitivity and resistance
• Malignant hyperthermia
• Epidermal necrolysis
• Drug-metabolizing enzymes
• Clinical implementation
• Polypharmacy

Pharmacoinformatics interface of technology with the practice of pharmacy where the new drug development and modernization of drug discoveries using various bioinformatics technologies and statistical methods and algorithms like artificial Neural Networks. Bioinformatics and Computational biology is an interdisciplinary field that develops and applies computational methods to analyse large collections of biological data, such as genetic sequences, cell populations or protein samples, to make new predictions or discover new biology. The computational methods used include analytical methods, mathematical modelling and simulation,Biotechnology Conferences.

• Pharmacoeconomics
• Bioinformatics
• Cheminformatics
• Data mining and Machine Learning
• Computational anatomy
• Microarrays
• Text mining

Biopharmaceutical downstream processing (DSP) refers to the recovery and purification of a drug substance (DS) from natural sources, such as animal or bacterial cells, biological materials, such as cells, tissue culture fluid, or plant tissues to derive pure and homogeneous protein product also Qualities and employments of plasmids in atomic science. Recombinant DNA innovation. Development and employments of genomic and cDNA libraries. Genome association of prokaryotes and eukaryotes.          

• Chromatographic purification in downstream processing
• Gel filtration (GF) chromatography
• Bio-separation
• SDS-PAGE
• PCR
• Southern, Northern and Western hybridization

Nano biotechnology alludes to the crossing point of nanotechnology and life science. Given that the subject is one that has just developed as of late, Bio nanotechnology and Nano biotechnology fill in as cover terms for differently related advancements.  Growing new instruments, for example, peptoid Nano-sheets, for medicinal and organic reasons for existing is another essential target in nanotechnology. New Nano-devices are frequently made by refining the utilization of the Nano-apparatuses that are as of now being utilized. Nanomedicine has attracted scientists because of its enormous properties such as its petite size, capacity to pack various drugs and large surface area, and strength to increase the absorption of conjugated.  

• Nanotechnology drug delivery applications
• Nanoparticles
• Nanomedicine in cancer treatment
• Advantages & Disadvantages
• Novel application of nanoparticles
• Nano-Antibodies
• Lipid nanotechnology

Pharmacogenomics is the study of how genes changes a person’s response to drugs. Its objective is to grow rational means to enhance drug therapy, with respect to the patients' genotype, to provide maximum efficiency with minimum adverse effects. It is an inexorably imperative zone of science and innovation. The Pharmaceutical Biotechnology is generally spread, running from numerous moral issues to changes in medicinal services hones and a huge commitment to the advancement of the national economy. Pharmaceutical organizations make and market drugs, domesticated animals feed supplements, vitamins, and a large group of different items. Pharmaceutical companies uses biotechnology for manufacturing drugs, gene therapy, pharmacogenomics and genetic testing. The pharmaceutical biotechnology formulations are moderately basic atoms made essentially through experimentation method for treating the indications of an ailment or sickness. Then again, biopharmaceuticals are unpredictable natural atoms, regularly known as proteins that typically go for dispensing with the hidden systems for treating diseases

• Recombinant vaccines
• Pharmaceutical products of DNA Technology
• Monoclonal Antibodies
• Drug Designing & Discovery
• Chemotherapy
• Cell therapies

Technology has been a significant operator regarding advancements toward drug discovery. Automation, nanofluidics, imaging, software, and assay technologies have performed a principal role in obtaining better data, faster. Research on data or samples of tissue from people,  aimed at evaluating a medical, surgical, or behavioral intervention. Researchers find out if a new treatment, like a new drug or diet or medical device through Clinical Trials and Clinical Research.

• Novel Drug Delivery Systems
• Innovative trials
• Cancer Targeted Drug Delivery
• Drug vs Vaccine
• AR and VR
• 3d Printed drugs

Vaccines contain the same germs that cause particular infectious diseases. But they have been either killed or weakened to the point that they don’t make you sick. The vaccine stimulates your immune system to produce antibodies.

• Covid-19 Drug Development
• Covid-19 impact on worldwide pharma sector
• Novel Vaccine Drug Delivery Systems
• Current Research & Future Challenges in Vaccines

Food biotechnology is the utilization of microorganisms to make new species which have desired population, marketing, or nutrition related properties they are a source of an uncertain contention over the instability of their long term effects on people and food chains. Simply it  is the use of technology to transform the genes of our food sources. The technology may not only improve the nutritional quality of staple foods, but can also decreases the need to cultivate crops on deforested land. By improvement, we mean either making the food cheaper to produce, longer lasting, more disease resistant, or extra nutritious. Modern biotechnology can play an important role in meeting our future food demands in a sustainable manner. Biotech can increase crop yields, help develop new crops, and adapt existing crops to be cultivated on marginal lands with reduced fresh-water inputs. New biotechnology tools enable scientists to introduce biochemical pathways to cells so we can breed plants that are safe and cost-effective sources of these nutrients, Biotechnology Conferences.

• Food Additives
• Dairy technology
• Food Processing and Preservation
• Fermentation
• Food Quality Standards
• Food Microbiology
• Food Packaging

It is a pile of tools, containing traditional breeding methods that alter living organisms, or parts of organisms, to make or modify products, improve plants or animals for specific agricultural uses. Agro-forestry is an integrated approach of cultivation of plants and trees and use of livestock in agricultural systems.

• Agrisilviculture
• Intercropping
• Genetic Engineering
• Plant Pathology and Immunology
• Plant Micropropagation
• Parasitology

Environment biotechnology is applied and used to study the natural environment. Environmental biotechnology could also imply that one try to harness biological process for commercial uses and exploitation. It is "the development, use and regulation of biological systems for remediation of contaminated environment and for environment-friendly processes (green manufacturing technologies and sustainable development). Environmental biotechnology can simply be described as the optimal use of nature, in the form of plants, animals, bacteria, fungi and algae, to produce renewable energy, food and nutrients in a synergistic integrated cycle of profit making processes where the waste of each process becomes the feedstock for another process.

• Environmental Toxicity and Mechanism
• Environmental Toxicity Testing
• Environmental Intoxicants and Stressors
• Biodiversity and Sustainable development
• Environmental AwarenessOccupational allergies

Biomechanics refers as the systems and structures of natural biological organisms, from the small plants to the biggest animals, respond to different strengths and external stimuli. In people, biomechanics regularly defends of how the skeletal and musculature syestem function under various conditions. In biomechanics all the more by and large, researchers regularly attempt to apply material science and other scientifically based types of examination to find the cutoff points and capacities of biological systems.

• Tissue engineering
• Cell adhesion
• Cell biomechanics
• Musculoskeletal tissue repair

Biochemical engineering is a branch of chemical engineering which applies technological advancements to biological materials. It mainly deals with the design, construction, and advancement of unit processes that involve biological organisms or organic molecules and has various applications in areas of interest such as biofuels, food, pharmaceuticals , biotechnology, and water treatment processes.

• Artificial Organs
• Biomedical Devices
• Chemical Sensors
• Food Industry

Biochemistry is the division of science that examines the chemical processes within and related to living organisms. It is a laboratory based science that combines biology and chemistry. It comprises of a range of scientific disciplines, including genetics, microbiology, forensics, plant science and medicine. These and other biochemical innovations may assume a urgent part in our endeavors to locate an economical methods for living Biophysics is necessary to determine the Mechanics of how the molecules of life are formed, how different parts of a cell functions, and how complex systems in our bodies like the brain, circulation, immune system, and others work. Biophysicists are ideally qualified in the quantitative sciences of physics, math, and chemistry and they are able deal with a wide collection of topics, ranging from how nerve cells communicate, to how plant cells capture light and convert it into energy, to how changes in the DNA of healthy cells can stimulate their transformation into cancer cells, to so many other biological problems.

• Metabolomics
• Membrane Biophysics
• Computational and theoretical Biophysics
• Biomolecules

CRISPR is Clustered Regularly Interspaced Short Palindromic Repeats. The functions of CRISPR and CRISPR-associated (Cas) genes are the hallmark of a bacterial defence system that are essential in adaptive immunity in select bacteria and archaea. These sequences enable the host organisms to respond to and neutralize invading genetic material. With these systems, genes can be permanently modified in living cells and organisms. It may be possible, in the future, to correct mutations at precise locations in the human genome for the treatment of genetic disease.

Genomics is an interdisciplinary field of exploration of atomic science. A genome is an entire arrangement of DNA inside a solitary cell of a living being, and in that capacity, centres around the capacity, structure, development, of genomes. Genomics additionally includes in the examination and sequencing of genomes. The proteome is the arrangement of whole proteins that are delivered or adjusted by a life form or framework. This shifts with time and unmistakable prerequisites that a cell or life form experiences. Proteomics is an interdisciplinary area that had profited significantly from the hereditary data of the Human Genome Project and it likewise covers rising logical research from the general level of intracellular protein structure and its own particular special action designs.

• Proteomics for systems biology
•  Human plasma proteome
•  Functional genomics & Structural genomics
•  Application of Genomics and Structural Proteomics

Cell Biology is the study of cell structure and capacity, and it rotates around the idea that the cell is the major unit of life. Concentrating on the cell allows a point by point comprehension of the tissues and organisms that cells compose. A few living beings have just a single cell, while others are composed cooperative groups with huge numbers of cells. In general, cell science concentrates on the structure and capacity of a cell, from the most broad properties shared by all cells, to the remarkable, highly intricate functions specific to particular cells.

• Structural Biology
• Human Genomics
• Cellular Metabolism & Signalling
• Cell Cycle and Cytogenetics
• Plant Biology & Genomics
• Animal cells & Microbial Interactions

Biotechnology is the wide zone of science including living systems and organisms to create or make items, or any innovative application that utilizes natural systems, living beings, or subordinates thereof, to make or alter items or procedures for explicit use. Contingent upon the devices and applications, it frequently covers with the (related) fields of molecular biology, bio-engineering, biomedical engineering, bio manufacturing, molecular engineering, etc Pharmaceutical Biotechnology and Drug Design

• Medical Biotechnology
• Agricultural Biotechnology
• Industrial Biotechnology
• Environmental Biotechnology.
• Food Industry
• Protein Engineering
• Healthcare Products 

Genetics and Molecular biotechnology is the use of laboratory techniques to study and modify nucleic acids and proteins for applications in areas such as human and animal health, agriculture, and the environment. Molecular biotechnology results from the convergence of many areas of research, such as molecular biology, microbiology, biochemistry, immunology, genetics, and cell biology. It is an exciting field fueled by the ability to transfer genetic information between organisms with the goal of understanding important biological processes or creating a useful product.

• Genetic modification
• Molecular docking and computational evolutionary biology
• Applications of genomics
• Genome analysis

Biotechnology products for therapeutic use incorporate a very distinctive array of products, including growth factors, cytokines, hormones, receptors, clotting factors, monoclonal antibodies, vaccines, gene transfer products, and tissue/organ grafts.

• Conventional therapies
• Cell therapies
• DNA vaccines
• Experimental Therapeutics
• Enzymes
• Biomaterials-based approaches
• Novel bioactive compounds
• Medicinal plants