14. ottobre 2019 - 8:00
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3rd World Congress on Advanced Biotechnology (AAC) | | lunedì, 14. ottobre 2019

3rd World Congress on Advanced Biotechnology
Biotechnology Congress brings its major share of delegation from the industry and the academia. The Biotechnology Congress 2019 is a remarkable event in the field of biotechnology. Biotechnology congress 2019 aims together the Researchers, principal investigators, experts and researchers working under academia and health care industry, Business Delegates, Scientists and Students across the globe to provide an international forum for the dissemination of original research results, new ideas and practical development experiences. Biotechnology Congress is pleased to invite Academicians, scientists, researchers, educators, professionals, practitioners, Biotechnologists, Microbiologists, Pharmacists, and student to exchange ideas and be informed about the latest research development in the field.
Biotechnology Congress 2019 takes immense pleasure in inviting all the participants around the globe to attend “3rd World congress on Advanced Biotechnology” to be held at Rome, Italy during October 14-15,2019.Biotechnology Congress is organized by Allied Academies. Allied Academies every year hosts interdisciplinary international conferences worldwide on cutting-edge basic and applied research in life sciences, Pharma,Medicine, Healthcare and Nursing delivered by the best talents in industry and academia. Our conferences are oriented to drive the scientific community at large, facilitating access to the newest technical and scientific achievements and to shape future research directions through the publication of applied and theoretical research findings of the highest quality. Bound together Allied Academies has transformed into a prominent choice for the experts and academicians to display their marvellous duties. The distributer gives pursuers and creators an aggregate stage to confer their work to the overall gathering.
Why to Attend??Encounter the target market with members from across the globe, committed to learn about cardiac imaging techniques.This is the best opportunity to outreach the largest gathering of participants from around the world. Conduct presentations, distribute and update knowledge about the current situation of Biotechnology research technique and receive name recognition at this 2-days event. Target Audience will be personnel from both industrial and academic fields which include Biotechnologists, Pharmaceutical scientists, Food, Environmental and Plant Scientists, Professors, Researchers, scientists, CEOs, COOs, Directors, Students from the biotechnology industry and academia. World-eminent speakers, most recent researches, latest treatment techniques and the advanced updates in Biotechnology are the principal features of this conference.
Target AudienceOur Organization would be privileged to welcome the:BiotechnologistsDirectors of Pharma and Biotech AssociationsHeads, Deans and Professors of Biotechnology and related departmentsScientists and Researchers
Thematic SessionsAdvancements in BiotechnologyBiotechnology is an ever emerging field in which biological processes, organisms, cells and cellular components are exploited to develop novel expertise. Over the past two decades there have been revolutionary biotech innovations which helped the mankind. New tools and products developed by biotechnologists are expedient in research, agriculture, industry and the clinic. Recent advancements in the field of biotechnology will underpin our economy and provide solutions to intractable problems of human and animal diseases, climate change, fuel alternatives, food security as well as improving our quality of life. Nano Biotechnology is science, building, and innovation directed at the nano scale, which is around 1 to 100 nanometers. Nano science and nanotechnology are the review and utilization of amazingly little things and can be utilized over the various science fields, for example, chemical science, polymer science, physical science, materials science, and engineering. Today's researchers and engineers are finding a wide range of approaches to intentionally make materials at the nano scale to exploit their upgraded properties, for example, higher quality, lighter weight, expanded control of light range, and more chemical reactivity than their bigger scale counterparts.BiosensorsA biosensor is a consistent device for the recognition of a substance that merges a natural segment with a physical transducer. The natural detecting component can be a chemical, a receptor counter specialist, or DNA. The transducer, which can be optical, physicochemical, piezoelectric, or electrochemical, produces an electrical banner comparing to the gathering of the substance being estimated. On a basic level, any natural recognizing segment may be joined with any physical transducer. Related banner processors demonstrate the results in a straightforward way. The little glucose strip used by diabetics, which associates with their test meter, contains a compound called glucose oxidase, which changes the glucose in a drop of blood into an invention that can be recognized with electrical estimations.BioinformaticsBioinformatics refers computational ways to analyze, examine, oversee, and store natural information. Bioinformatics includes the examination of organic data utilizing PCs and measurable systems, the exploration of creating and using PC databases and calculations to quicken and improve natural research. Bioinformatics is utilized as a part of breaking down genomes, proteomes (protein arrangements), three-dimensional demonstrating of biomolecules and biologic systems etc.Stem cell Biotechnology & Regenerative MedicineStem cell biotechnology is a field of biotechnology that develops tools and therapeutics through modification and engineering of stem cells. Stem cell biotechnology is important in regenerative medicine. Regenerative medicine is an Inter disciplinary branch that tends to repair or regenerate damaged cells or tissues to regain or restore their normal function.Pharmaco-genomicsPharmaco-genomics focuses on the identification of genome variants that influence drug effects, typically  alterations in a drug’s pharmacokinetics (absorption, distribution, metabolism, elimination) or modulation of a drug’s pharmacodynamics ( modifying a drug’s target or perturbing biological pathways that alter sensitivity to the drug’s pharmacological effects).It deals with drug effects differences caused by variation in genetics. Pharmacogenomics has an immense role to ensure maximum efficacy and to minimize adverse effects and in maintenance of quality of life.BiomarkersClinically used biomarkers are required for regulatory and therapeutic decision making regarding drugs and their indication in order to bring new medicines to appropriate persons faster than they are today. Biomarkers are proposed to measure delivery of drugs at intended site, understand and predict pathophysiology.RelatedSocieties and Associations : Pharmaceutical Society of Singapore, Korean Society of Gene and Cell Therapy, Pharmaceutical Society of Singapore, Indian Society of Nano science and Nanotechnology,Society for Biotechnology, Korean Society of Food Science And Technology.Biopharmaceuticals & Drug DesigningDrug design is an inventive process of finding new medications of a biological target which frequently but not necessarily relies on computer modeling techniques use of high throughput screening techniques to analyze a new compounds, both by synthetic and natural, as novel drugs. Regrettably, this approach has yielded very little achievement in the field of anti-infective drug discovery. The identification of both molecular targets that are essential for the survival of the pathogen, and compounds that are active on intact cells, is a challenging task. Even more formidable, however, is the fulfillment for appropriate potency levels and suitable pharmacokinetics, in order to achieve efficacy in small animal disease models.Biofuels & BioenergyBiofuels are fuels that can be processed from numerous types of biomass. First generation biofuels are processed from the sugars and vegetable oils formed in arable crops, which can be smoothly extracted applying conventional technology. In comparison, advanced biofuels are made from lignocellulosic biomass or woody crops, agricultural residues or waste, which makes it tougher to extract the requisite fuel. Advanced biofuel technologies have been devised because first generation biofuels manufacture has major limitations. First generation biofuel processes are convenient but restrained in most cases: there is a limit above which they cannot yield enough biofuel without forbidding food supplies and biodiversity. Many first-generation biofuels rely on subsidies and do not cost competitive with prevailing fossil fuels such as oil, and some of them yield only limited greenhouse gas emissions savings.RelatedSocieties and Associations : European Society for Precision Engineering and Nanotechnology, Society for Chemical Engineering Biotechnology, Romanian Society of Medical Mycology and Mycotoxicology, New Zealand Plant Protection Society, International Society for Pharmaceutical Engineering, Pharmaceutical Society of Australia.Plant &Agricultural BiotechnologyPlant biotechnology is characterized as the utilization of learning acquired from investigation of the life sciences to make technological upgrades in plant species. Plant biotechnology has been led for more than ten thousand years. The underlying foundations of plant biotechnology can be followed back to the time when people began gathering seeds from their most wild plants and started cultivating them in tended fields. It appears that when the plants were cultivated, the seeds of the most attractive plants were held and replanted the next growing season. While these primitive agriculturists did not have knowledge of the life sciences, they apparently understood the fundamental standards of gathering and replanting the seeds of any normally happening variation plants with enhanced qualities, for example, those with the biggest fruits or the most elevated yield, in a procedure that we call artificial selection. This domestication and controlled change of plant species was the beginning of plant biotechnology.Agriculture biotechnology, otherwise called agritech, is a territory of agrarian science including the utilization of logical scientific tools and methods, including genetic engineering, Bio markers, Vaccines, antibodies, and tissue culture, to modify living organisms: plants, animals, and microorganisms. In view of a comprehension of DNA, researchers have created answers for increase agriculture productivity. Beginning from the capacity to identify qualities that may confer points on specific harvests, and the capacity to work with such attributes exactly, biotechnology upgrades reproducers' ability to make enhancements in plants and animals.Industrial and Microbial BiotechnologyMicroorganisms (or microorganisms) are life forms that are too little to be seen by the unaided eye. They incorporate microscopic organisms, parasites, protozoa, microalgae, and infections. Microbial Biotechnology studies investigation of organisms and their associations with people, animals, plants, and the earth. Industrial biotechnology is among the most encouraging new approaches to deal with contamination anticipation, asset preservation, and cost reduction. It is regularly referred to as the third wave in biotechnology.RelatedSocieties and Associations : Romanian Society of Medical Mycology and Mycotoxicology, New Zealand Plant Protection Society, International Society for Pharmaceutical Engineering, Pharmaceutical Society of Australia, Mexican Society for Biotechnology and Bioengineering, Society for Biological Engineering, National Society of Agriculture, The Protein Society, Pharmaceutical Marketing Society.Food & Nutritional BiotechnologyFood Biotechnology is innovation to alter modify genes of microorganisms, plants, and animals to make new species which have generation, promoting, or nutrition related properties called genetically engineered (GE) genetically modified crops, they are a source of an unresolved controversy over the long term effects on people and food chains. 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.Marine and Aquaculture BiotechnologyMarine biotechnology is the procedure that includes the marine assets of the world that are contemplated in biotechnology applications. Its applications are used in various assignments, for example, getting new tumor medications from marine living beings to ocean growth cultivating. As new pharmaceutical organizations concentrate on growing new medications from marine organisms, professionals are trained in the disciplines of microbiology, science, genomics, bioinformatics, and related fields. Marine biotechnology centers not just around minimal known types of deep ocean life additionally on the developing utilization of marine life in the food, cosmetics, and agricultural enterprises, for example, aquaculture.Medical BiotechnologyMedical biotechnology defines study of cell materials and living cells to research and develops indicative and pharmaceutical analyses that help treat and prevent human infections. Most medicinal biotechnologists work in technological settings. In academic labs, these experts lead explores as a major aspect of medical research thinks about; industrial biotechnologists move in the direction of creating medications or antibodies. The medical biotechnology field has conveyed to microbial pesticides, genetically modified crops, and natural procedures.Genomics &Proteomics Genomics is an interdisciplinary field of science of molecular biology. A genome is a complete set of DNA within a single cell of an organism, and as such, focuses on the function, structure, evolution, of genomes. It aims the collective quantification & characterization of genes, which direct the production of proteins with assistance of messenger molecules and enzymes. Genomics also involves in the analysis & sequencing of genomes. The proteome is the set of entire proteins that are produced or modified by an organism or system. This varies with time and distinct requirements that a cell or organism undergoes. Proteomics is an interdisciplinary domain that had benefitted greatly from the genetic information of the Human Genome Project and it also covers emerging scientific research from the overall level of intracellular protein composition and its own unique activity patterns. It is also an important component of functional genomics and their derivatives.Genetic Engineering & rDNA TechnologyRecombinant DNA technology, mainly focusses on joining together of DNA molecules from two different species that are inserted into a host organism to produce new genetic combinations that provide value to science, medicine, agriculture, and industry and also other therapeutic areas. Since the focus of all genetics is the gene, the primary and fundamental goal of laboratory research experts is to isolate, characterize, alter and manipulate genes.Oncolytic BiotechnologyOncolytic Biotechnology is the study of oncolytic virus, the virus that preferentially infects and kills cancer cells. As the infected cancer cells are destroyed by oncolysis, they release new infectious virus particles or virions to help destroy the remaining tumour. Oncolytic viruses are thought not only to cause direct destruction of the tumour cells, but also to stimulate host anti-tumour immune responses.BiosimilarsBiosimilars are the generic version of biological. It is the new buzz word in pharmaceutical industry. Biosimilars are highly similar to licensed reference product not withstanding minor differences in clinically inactive components; also there are no clinically meaningful differences between the biologicals and the reference product in terms of safety, purity, and potency. This track includes: Licensing of biosimilars, Biosimilars regulation, Patent issues, BLA filing for biosimilars, Biosimilars regulatory prospects of BRIC countries, a paradigm of traditional generics to Biosimilars , Biowaiver approval for Biosimilars and other aspects of Biosimilar approvals. Biosimilars 2017 will provide an excellent and global opportunity to the scientists, partners and pharma leaders from Biopharmaceutical and Biotechnology industries to innovate and to explore the strategic market for Biosimilars and Biologics with a clear picture of the regulatory approach for biosimilars and biologics.Tissue engineering and stem cell researchTissue building is the utilization of a mix of cells, designing and materials techniques, and appropriate biochemical and physicochemical elements to enhance or supplant natural tissues. Tissue building includes the utilization of a platform for the development of new feasible tissue for a therapeutic reason. While it was once sorted as a sub-field of biomaterials, having developed in degree and significance it can be considered as a field in its own. Foundational microorganisms are undifferentiated natural cells that can separate into specific cells and can isolate to create more undeveloped cells. They are found in multicellular life forms. In well evolved creatures, there are two expansive sorts of undifferentiated cells: embryonic foundational microorganisms, which are separated from the internal cell mass of blastocysts, and grown-up undeveloped cells, which are found in different tissues. In grown-up living beings, immature microorganisms and begetter cells go about as a repair framework for the body, renewing grown-up tissues.Bio-EngineeringBiological Engineering is an interdisciplinary zone concentrating on the utilization of building standards to break down natural systems and to take care of issues in the interfacing of such systems like plant, animal or microbial with human outlined machines, structures, procedures and instrumentation. Human based quality control influences about all sustenance supplies. Plants and animals are as of now being characterized on a molecular basis.Biodegradation and RecyclingBiodegradation is the procedure of crumbling of the natural materials by microorganisms like bacteria, fungi, or other organic means. The term is frequently utilized as a part of connection to different fields like biomedicine, squander administration, biology, and the bioremediation of the regular habitat. It is presently being every now and again connected with eco-accommodating items, items which are equipped for breaking down once more into characteristic components. Essentially, natural (carbon-based) material is changed through substance forms from complex atoms into more straightforward particles, in the end restoring the atoms into the earth. Biodegradation is nature's waste administration and reusing framework. It separates everything from yard waste to unrefined petroleum. It is a characteristic procedure important to keep our planet spotless and solid. Tragically, the rate at which we are creating waste far outpaces the rate of normal biodegradation, making our present state unsustainable. Subsequently, landfillshave been topping off at record rates, and air, water and soil contamination is expanding.Bio-ElectronicsBiological properties can be measured and altered using electronics, magnetics, photonics, sensors, circuits, and algorithms. Applications range from basic biological science through clinical medicine, and enable new discoveries, diagnoses, and treatments by creating novel devices, systems, and analyses. Biomolecular Electronics is a branch of nano-science and technology dealing with the investigation and the technological exploitation of electron transport properties in special classes of biomolecules. Albeit it deals with molecules that can donate to or receive electrons, biomolecular electronics has nothing to do with the molecular bases ruling the generation and propagation of electrical signals in neural cells, i.e. the action potential. Bioanalysis is one of the sub categories of Chemistry that helps in measuring Xenobiotics (unnatural concentration or location of drugs, Metabolites and biological molecules)   in biological system. Biomedicine is a branch of medical sciences that deals with applying biological and natural science principles to clinical practices. It studies our ability to cope with the environmental changes.Nano BiotechnologyMicroorganisms (or microorganisms) are life forms that are too little to be seen by the unaided eye. They incorporate microscopic organisms, parasites, protozoa, microalgae, and infections. Microbial Biotechnology studies investigation of organisms and their associations with people, animals, plants, and the earth. Industrial biotechnology is among the most encouraging new approaches to deal with contamination anticipation, asset preservation, and cost reduction. It is regularly referred to as the third wave in biotechnology.

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