
The lecture shows how crispr edits dna: guide rna directs cas9 to a target in chromosomes, cuts the dna, and cells repair it via homologous or non-homologous end joining.
Explore how fertilization begins with a single cell, rapidly divides into somatic and germ cells, and forms organs, using zebrafish to study gene editing.
Explore DNA structure and chromosome replication with proofreading enzymes, transcription to mRNA by RNA polymerase, and ribosome-driven protein production, ending with CRISPR-Cas9 editing via guide RNA.
Explore mosaic editing in somatic gene editing, where some cells are edited while others are not, producing albino or mixed pigment patterns and a need to screen for uniform edits.
Overview: The course is meticulously crafted to provide a comprehensive understanding of Genetic Engineering, with a special focus on the revolutionary CRISPR technology. From fundamental concepts to advanced applications, this course is your key to mastering the latest techniques in gene editing.
Benefits of Learning:
Stay Ahead of the Curve: Embrace the future by gaining proficiency in one of the most cutting-edge technologies in genetic engineering.
Hands-on Experience: Develop practical skills through virtual labs and simulations, ensuring you're ready to apply your knowledge in real-world scenarios.
Career Advancement: Stand out in the competitive job market with expertise in CRISPR, opening doors to exciting career opportunities in research, biotechnology, and more.
Who Can Learn: Whether you're a seasoned professional in biotechnology, a curious researcher, or a healthcare enthusiast, this course is designed for you. It caters to:
Biotechnology and Genetics professionals seeking advanced knowledge.
Students and researchers eager to explore the frontiers of genetic engineering.
Healthcare professionals interested in the applications of CRISPR in medicine.
Career Scope: Upon completion, you'll be equipped to explore diverse career paths:
Genetic Engineer: Lead genetic modification projects across various industries.
Biotechnologist: Contribute to groundbreaking advancements in biotechnology, particularly in healthcare.
Research Scientist: Engage in cutting-edge research in genetics and molecular biology.
Salary Package with Job Role In India and Abroad:
India: Genetic Engineers can command an average salary ranging from INR 6-10 lakhs per annum, based on experience and expertise.
Abroad: Internationally, salaries can vary, with an average ranging from 60,000 dollar to 120,000 dollar annually.
Requirements To Study: To embark on this exciting learning journey, you need:
A basic understanding of genetics and molecular biology.
Access to a computer with internet connectivity for online modules and practical exercises.
Key Features:
Comprehensive Curriculum: Covering fundamental concepts to advanced CRISPR applications.
Expert Instructors: Learn from industry professionals and renowned experts in genetic engineering.
Interactive Sessions: Engage in discussions, Q&A sessions, and collaborative projects with fellow learners.
Practical Labs: Gain hands-on experience with CRISPR technology through virtual labs and simulations.