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Quick Facts

Medium Of InstructionsMode Of LearningMode Of Delivery
EnglishSelf Study, Virtual ClassroomVideo and Text Based

Course Overview

CRISPR is among the most disruptive inventions in recent times, alongside IoT payments and blockchain. This gene-editing technology has already had an influence on industries including agriculture, biofuel, and healthcare, and its worldwide commercial potential is expanding at a rapid pace. The CRISPR: Gene-editing Applications online course gives a thorough grasp of the CRISPR Cas9 gene-editing technique, its numerous applications, and the business prospects presented by genetic engineering.

With a specific industrial emphasis and legitimate case studies, the CRISPR: Gene-editing Applications training investigates the use of CRISPR in biotechnology and explores how it can aid in enhancing food yields, creation of disease-resistant cultivars, and allow bioenergy to become a sustainable alternative to fossil fuels.

Study the prospects for healing inherited genetic problems, curing viral infections, and improving cancer research. The CRISPR: Gene-editing Applications syllabus provides candidates with a comprehensive knowledge of the CRISPR environment and its future possibilities, as well as industry perception into the ethical concerns of gene editing.

The Highlights

  • Projects and assessments
  • Self-paced learning
  • Course provider Getsmarter
  • Harvard University offering
  • Split option of payment
  • Shareable certificate
  • Downloadable resources
  • 7-10 hours per week
  • 8 weeks duration
  • Online learning

Programme Offerings

  • quizzes
  • Offline resources
  • Case Studies
  • Infographics
  • Live polls
  • Self-paced learning
  • video lectures
  • online learning.

Courses and Certificate Fees

Certificate AvailabilityCertificate Providing Authority
yesHarvard University, Cambridge
CRISPR: Gene-editing Applications Fee Structure:


Fee type

Fee amount in INR

CRISPR: Gene-editing Applications fees

₹67,382


Eligibility Criteria

Certification Qualifying Details

To qualify for the CRISPR: Gene-editing Applications certification, Students must complete the online course's weekly modules and submit the required assignments and projects. Candidates must engage in academic tasks such as live polls, quizzes, surveys, case studies, and so on. Students are evaluated through a series of online delivered projects and assignments. To qualify for certification, students must meet the standards outlined in the coursebook.

What you will learn

Knowledge of Microbiology

After the completion of CRISPR: Gene-editing Applications online training, Learners will gain knowledge of microbiology and a comprehensive understanding of CRISPR technology and its potential applications in agricultural science, biofuel, and healthcare management. Candidates will gain the ability to see business possibilities and weigh the ethical consequences of genetic alteration and learn the industrial knowledge and technical expertise required to effectively convey their company's economic biotech endeavour to corporate decision-makers.


Who it is for

  • Anyone with a keen interest in biotechnology or genetic engineering.
  • Researchers and biotechnologists who wish to learn about a wide range of applications.
  • Investors and decision-makers who are interested in learning more about CRISPR and its applications in sectors such as healthcare, agriculture, and biofuel.

Admission Details

To get admission in the CRISPR: Gene-editing Applications tutorial, follow the step-by-step procedure mentioned below:

Step 1. Visit the official course page by following the URL (https://www.getsmarter.com/products/harvard-vpal-crispr-gene-editing-applications-online-short-course)

Step 2. Find the ‘Register Now’ button on the official course page and click to further proceed

Step 3. Read the Getsmarter T&C and accept to continue

Step 4. Create your profile on the Getsmarter portal by filling out the necessary information.

Step 5. Fill in the sponsor details if applicable and provide billing details

Step 6. Pay the program fee and start the course

The Syllabus

  • Recall the basic structure of an organism
  • Review the information flow from DNA to proteins
  • Interpret the consequences of DNA mutation and damage
  • Identify how a cell can repair damage

  • Recognize CRISPR's origins as a defense mechanism deployed by bacteria
  • Identify the two phases of CRISPR-based adaptive immunity
  • Review the distinguishing features of CRISPR-Cas9 and its status as a Type II CRISPR system
  • Indicate how the CRISPR-Cas9 system is used for genetic editing

  • Recognize how gene editing is used to research and treat genetic diseases
  • Review how CRISPR could be used in conjunction with stem cells to cure β-thalassemia
  • Indicate the various ways in which CRISPR has been used to treat muscular dystrophy in mice
  • Identify the ways in which human stem cells have been edited to research and treat muscular dystrophy
  • Review how CRISPR could be used to treat a polygenic disease like diabetes

  • Recall the main types of pathogens that infect humans
  • Recognize the role of the immune system in fighting pathogens
  • Review the replication cycle of HIV
  • Identify CRISPR-based methods for combating HIV
  • Review the life cycle of the malaria parasite
  • Identify CRISPR-based methods for combating malaria
  • Indicate how CRISPR is used as a diagnostic tool to identify pathogens

  • Recall the definition of cancer and the way in which it progresses in the body
  • Indicate how CRISPR can be used as a research tool to further our knowledge of cancer
  • Identify how CRISPR can be used to treat cancerous cells directly
  • Review how the CRISPR tool can be used to develop cancer immunotherapy

  • Recall the definition of microbes and their potential use in various industries
  • Recognize how CRISPR can be used to identify microorganisms in industrial cultures
  • Identify the ways in which CRISPR can be used to vaccinate microorganisms against pathogens
  • Describe how CRISPR can be used to target the bacteria's own genome and fight antibiotic resistance
  • Outline techniques of metabolic engineering and how microbes can be optimized to produce useful bioproducts
  • Identify how microbes can be optimized to produce biofuels

  • Identify CRISPR's potential application to agriculture and potential to solve worldwide food challenges
  • Describe the specific features of CRISPR-Cas systems as used in plants
  • Describe the potential benefits of using CRISPR-Cas systems in crops

  • Recall the advantages and limitations of CRISPR-based gene editing in somatic cells and germlines
  • Discuss the ethical issues associated with germline genome editing
  • Identify the adaptations and limitations of existing rules regulating the gene editing of crops
  • Review the ethical and regulatory issues raised by other important applications of CRISPR-Cas
  • Articulate whether CRISPR can be used ethically

Instructors

Harvard University, Cambridge Frequently Asked Questions (FAQ's)

1: What is CRISPR?

CRISPR is a gene-editing technique that can be used to change a fragment of DNA.

2: How does CRISPR work?

CRISPR arrays enable bacteria to recall viruses. If the viruses strike again, the bacteria employ the CRISPR arrays to generate RNA segments that target the DNA of viruses.

3: What is gene editing?

Gene editing is a field of study that aims to change the genes of live creatures in order to better understand gene function and find methods to utilize it to treat hereditary or acquired illnesses.

4: Which is the gene-editing online course?

The CRISPR: Gene-editing Applications course offered by Harvard University is top graded and well-recognized gene editing online course.

5: How long does it take to complete the CRISPR: Gene-editing Applications certification?

It takes 8 weeks at the rate of 7-10 hours per week to complete the CRISPR: Gene-editing Applications certification.

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