What you will learn
Concepts of CRISPR technology, its Versions and working mechanism
Explaining the way in which CRISPR can be used as a tool to edit genes.
Crisper working mechanism in labs
You will be able to design your first CRISPR lab project.
skill of designing gRNA through bencheling tool.
Crisper working mechanism in mother nature
Gene editing basic concepts
Limitations of crisper and Gene editing
Working mechanism of gene editing
Description
Ever thought about the newly techniques being used in our ecosystem the genetic modifications and the crisper technology
If your answer is yes then you will be also keen on learning about these new technologies
Then hey there
Welcome to this course on the gene editing and crisper technology
In this course we will be going through the main and important basic information about the genome editing technology very well-organized course for beginners
So, I have divided this course onto two segments
First one will be about the gene editing term its brief introduction examples applications limitations a lot more
And the second segment or section of our course will be about the crisper cas technology that is being utilized in biotechnology and a lot of other fields. Well be going through a lot of information about crisper its introduction history applications limitations working mechanism and a lot more
Then the most important part on step by step guide on using crisper technology
Well being honest I love these new technologies and I love learning about these technologies thatβs why I am sharing this course so you guys can also take advantage and get the idea of this amazing technology.
Genome editing is a method that lets scientists change the DNA of many organisms, including plants, bacteria, and animals. Editing DNA can lead to changes in physical traits, like eye color, and disease risk. Scientists use different technologies to do this.
CRISPR technology is a simple yet powerful tool for editing genomes. It allows researchers to easily alter DNA sequences and modify gene function. Its many potential applications include correcting genetic defects, treating and preventing the spread of diseases and improving crops. However, its promise also raises ethical concerns.
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