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Our Courses
Financing Biotech Innovations
Financing is the key to making biotechnology innovations accessible for everyone. Learn how you can raise financing for your biotech venture.
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Course by
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Self Paced
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12
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English
Patenting in Biotechnology
Far too often, researchers are misinformed about the role and the possibilities arising around patents and Intellectual Property Rights (IPR). In this course we will teach you what IPR are - with a special focus on patents. Also this course will look at the importance of patents in the world of biotechnology - and what you actually can patent. Should your research be protected? Can your research even be protected? There are a lot of misunderstandings about patents, so first step is to know what patents really are and how they work. Then we will introduce how and when to apply for them.
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Course by
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Self Paced
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27 hours
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English
Genomics for Law
Genomics for Law provides a unique framework to review the history and basics of genomics research as well as explore how genomics has, and will continue to, interact with the law. Throughout this course you will explore the implications of genomics research on law, as well as law's influence and implications on genomics research, as it pertains to the following topics: • Genomics and Criminal Law • Genomics and Criminal Procedure • Forensic Genomics • Intellectual Property Protection and Biotechnology • Genomics and Tort Law • Genomics and Privacy Law • Legal and Ethical Issues in Genomics
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Course by
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Self Paced
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12 hours
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English
Systems Biology and Biotechnology
Design systems-level experiments using appropriate cutting edge techniques, collect big data, and analyze and interpret small and big data sets quantitatively. The Systems Biology Specialization covers the concepts and methodologies used in systems-level analysis of biomedical systems. Successful participants will learn how to use experimental, computational and mathematical methods in systems biology and how to design practical systems-level frameworks to address questions in a variety of biomedical fields.
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Course by
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Self Paced
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English
Introduction to Industrial Bioprocess Development
Bioprocesses make use of microorganisms, animal cells, or enzymes to manufacture new products or complete a chemical transformation. Since ancient days, humans have been using microorganisms to transform biological materials for the production of alcoholic beverages and other fermented foods. Since then, bioprocesses have been developed for an enormous range of commercial products, from relatively cheap products such as organic solvents and industrial alcohol, to expensive specialty chemicals such as therapeutic proteins, antibiotics, and vaccines.
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Course by
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Self Paced
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15 hours
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English
Experimental Methods in Systems Biology
Learn about the technologies underlying experimentation used in systems biology, with particular focus on RNA sequencing, mass spec-based proteomics, flow/mass cytometry and live-cell imaging. A key driver of the systems biology field is the technology allowing us to delve deeper and wider into how cells respond to experimental perturbations. This in turns allows us to build more detailed quantitative models of cellular function, which can give important insight into applications ranging from biotechnology to human disease.
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Course by
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Self Paced
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18 hours
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English
Genes and the Human Condition (From Behavior to Biotechnology)
To acquire an understanding of the fundamental concepts of genomics and biotechnology, and their implications for human biology, evolution, medicine, social policy and individual life path choices in the 21st century.
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Course by
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Self Paced
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12 hours
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English
Algae Biotechnology
For decades, researchers have been studying microalgae to understand their biological functions and how we can use technology to harness algae’s power to create a wide range of commercial products.
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Course by
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Self Paced
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7 hours
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English
Introduction to High-Throughput Materials Development
This course is an introduction to high-throughput experimental methods that accelerate the discovery and development of new materials. It is well recognized that the discovery of new materials is the key to solving many technological problems faced by industry and society. These problems include energy production and utilization, carbon capture, tissue engineering, and sustainable materials production, among many others. This course will introduce the learner to a remarkable new approach to materials discovery and characterization: high-throughput materials development (HTMD).
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Course by
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Self Paced
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16 hours
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English
Industrial Biotechnology
Fossil fuels have been the primary energy source for society since the Industrial Revolution. They provide the raw material for the manufacture of many everyday products that we take for granted, including pharmaceuticals, food and drink, materials, plastics and personal care. As the 21st century progresses we need solutions for the manufacture of chemicals that are smarter, more predictable and more sustainable. Industrial biotechnology is changing how we manufacture chemicals and materials, as well as providing us with a source of renewable energy.
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Course by
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Self Paced
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12 hours
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English
Systems Biology and Biotechnology Capstone
NOTE: In order to take this course you should have taken and complete the following courses in the Signature Track: Introduction to Systems Biology, Network Analysis in Systems Biology, Dynamical Modeling Methods for Systems Biology, Experimental Methods in SB and Integrated Analysis In Systems Biology
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Course by
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Self Paced
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2 hours
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English
Medical Technology and Evaluation
Innovations in medical technologies are one of the leading areas of economic growth in the world. Whether new technologies take the form of pharmaceutical, medical device, biotechnology, information technology of some combination of these innovations, the opportunities for both private enterprise and social welfare are substantial. However, these innovations are not without cost, and require reimbursement from either a privately or publicly financed health care delivery system to enter the marketplace.
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Course by
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Self Paced
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13 hours
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English
Genomics: Decoding the Universal Language of Life
What is a genome? A genome contains all of the information that a cell needs to develop, function, and reproduce itself, and all the information needed for those cells to come together to form a person, plant, or animal. Genomes contain an organism’s complete set of genes, and also the even tinier genetic structures that help regulate when and how those genes are used. The ability to regrow a torn ligament, the clues that might predict the onset of mental illness, the nutritional potential of crops, and even the history of life itself, are all encoded in genomes.
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Course by
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Self Paced
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37 hours
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English
Monthly Subscription
Included in- Starter @ AED 99 + VAT
- Professional @ AED 149 + VAT
- AED 170.99 + VAT
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Drug Discovery
The University of California San Diego, Skaggs School of Pharmacy and Pharmaceutical Sciences Drug Discovery course brings you lectures from both faculty and industry experts. With this course, recorded on campus at UCSD, we seek to share our access to top people in the field who bring an unprecedented range of expertise on drug discovery. In this course you will learn the drug discovery process up to the filing of an Initial New Drug Application or IND. Each week you will learn the steps that a pharmaceutical or biotech company goes through to discover a new therapeutic drug.
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Course by
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Self Paced
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9 hours
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English
Monthly Subscription
Included in- Starter @ AED 99 + VAT
- Professional @ AED 149 + VAT
- AED 204.99 + VAT
Buy Now