Basics Of Genetic Engineering
Published 10/2024
MP4 | Video: h264, 1280×720 | Audio: AAC, 44.1 KHz, 2 Ch
Language: English | Duration: 1h 42m | Size: 701 MB
Introduction to Genetic Engineering: Exploring Gene Editing, Cloning, and Real-World Applications
What you’ll learn
Understand the fundamental principles of genetic engineering and its key concepts.
Apply essential genetic engineering tools and techniques, such as PCR, gene cloning, and CRISPR.
Analyze the ethical, legal, and societal implications of genetic engineering.
Explore real-world applications of genetic engineering in medicine, agriculture, and biotechnology.
Requirements
This course is designed for anyone interested in exploring the dynamic field of genetic engineering. It is particularly valuable for students in science and engineering disciplines who want to gain a foundational understanding of genetic manipulation, its tools, and applications. Professionals in related fields such as biotechnology, medicine, agriculture, and pharmaceuticals will also benefit from this course as it provides insights into how genetic engineering is transforming these industries. Additionally, anyone curious about the future of genetics and its role in solving global challenges will find this course engaging and enlightening. Whether you’re looking to enhance your academic knowledge or apply genetic engineering in your career, this course will equip you with the essential concepts and tools needed for success.
Description
This course provides a comprehensive introduction to the fascinating field of genetic engineering, equipping learners with the fundamental concepts and techniques used to modify genetic material. Designed for beginners, it covers essential topics such as DNA structure and function, gene cloning, and the latest tools in gene editing like CRISPR-Cas technology. The course delves into both the theoretical and practical aspects of genetic engineering, offering students a strong foundation in the molecular techniques that have revolutionized biotechnology, medicine, and agriculture.Throughout the course, you’ll explore a range of applications-from developing genetically modified organisms (GMOs) for improved crops to cutting-edge advancements in gene therapy for treating human diseases. Key areas of focus include cloning and recombinant DNA technology, gene delivery systems, and the ethical, legal, and social implications (ELSI) of manipulating genes. By examining real-world case studies, you’ll gain insights into how genetic engineering is applied in research, industry, and healthcare.Whether you’re a student of biology or biotechnology, a professional in a related field, or simply curious about the science behind genetic manipulation, this course will provide you with the essential tools to understand and explore the rapidly evolving field of genetic engineering. No prior knowledge is required, making it an accessible yet informative experience for anyone interested in the future of genetics.
Who this course is for
This course is designed for students, professionals, and enthusiasts eager to dive into the exciting world of genetic engineering. It is ideal for undergraduate and graduate students in biology, biotechnology, biomedical engineering, or related fields who want to build a strong foundational understanding of genetic manipulation techniques and applications. Professionals working in sectors such as pharmaceuticals, agriculture, healthcare, and biotechnology will find the course particularly useful for gaining insights into how genetic engineering is advancing their industries. Additionally, anyone with a keen interest in cutting-edge technology and a curiosity about how genetics can be harnessed to solve real-world problems will benefit from the course. Whether you’re pursuing academic growth, career development, or simply have a passion for genetic science, this course will provide the knowledge and skills you need to explore the vast potential of genetic engineering.
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