Gene Editing: A Short Course for African Biosciences Professionals

GeneConvene Virtual Institute · September 30, 2024

Dates:  25 – 29 November 2024

Application Deadline:
14 October 2024

About this course

Who should apply

Prerequisites

Course Outline

Field Trip 
(optional) Rwanda Biomedical Centre in Kigali, Rwanda 29 November 2024

Organizing Institutions

Instructors

Scholarships


Application Deadline: October 14, 2024

This in-person-only course is for African science professionals who want to gain a deeper and broader understanding of gene editing technologies and their various derivatives to enhance their teaching, mentoring, program planning, or other professional activities where gene editing science is encountered.

“This course has given me so much insight”

“The lectures were very well organised and meticulously delivered. It was a class beyond gene editing. I’ve learnt a lot.”

“Very interactive and engaging”

“Theory combined with relevant videos as well as practicals were really helpful”


Contact: [email protected] or [email protected]

Location: University of Rwanda, Center of Excellence in Biomedical Engineering and E-health (UR CEBE), Kigali, Rwanda


University of Rwanda Center of Excellence in Biomedical Engineering and E-health


Application Deadline: October 14, 2024

About This Course

Some 10 years ago new gene editing technology emerged that enabled precise genome engineering across all domains of life and spurred multiple technological innovations in the life sciences.  Progress has been rapid and keeping up with this rapid change is challenging.

This classroom-based course is designed for established science professionals – lecturers, department heads, researchers, and others – who will benefit from deepening and broadening their knowledge and understanding of gene editing and its applications.

This course provides a solid genetic and biochemical foundation that will give participants sufficient understanding to explain gene editing technologies and how they can be used – for example, in the context of a seminar, lecture or other professional presentations.

The final day (day 4) of the course is a colloquium of African scientists and gene editing practitioners providing course participants an opportunity to hear how gene editing is being used, to exercise their new knowledge and to network with African gene editing leaders.

On day 5 there will be an optional activity following the course involving a trip to the Rwanda Biomedical Centre where the potential applications of genetic technologies for health are being explored.

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Learning Objectives and Content

The course will be comprised of short instructional lectures, active learning activities, formative assessments, reading scientific papers– all designed to promote learning. After completing this course participants will:

  • Understand and be able to explain the biochemical and genetic mechanisms associated with the use of programmable DNA endonucleases such a CRISPR/Cas9.
  • Understand and be able to explain the diversity of programmable DNA endonucleases and their key distinguishing features and uses.
  • Understand and be able to explain how programmable DNA endonucleases in their various forms are being used as platforms for a variety of genomic technologies.
  • Be able to describe and explain how specific applications of these technologies in the life sciences and medicine are being developed in Africa.
  • Be competent in reading and understanding the material and methods sections of research publications making use of “genome editing technologies”.
  • Be able to deliver a lecture on the basics of gene editing to colleagues, trainees and students.

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Who Should Apply

Early, middle and later science career professionals who will benefit from and apply the learnings offered in this course.

This course is not designed for students and trainees.

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Prerequisites

Undergraduate-level knowledge of biology, genetics and molecular biology.

This is a technical course on gene editing intended to build on participants existing foundation of basic biology.

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Course Outline

  • Day 1: The Basics
    • Broken DNA – The engine driving ‘editing’
    • How to Break DNA – DNA Endonucleases
    • CRISPR/Cas9 – Structure and Function
    • CRISPR – Bacterial Anti-Virus-Immune System
  • Day 2: Going Deeper
    • Practice Explaining Gene Editing
    • sgRNA Design Practical
    • Working with Models
    • Knock-out Mutations – Basic workflow
    • Knock-in Mutations – Basic workflow
  • Day 3: Beyond Basics
    • Base Editing
    • Prime Editing
    • Non-editing Applications of Cas9
    • More Explaining Practice
  • Day 4: Colloquium of African Gene Editing Practitioners
    • Presentations
    • Applying Learnings
  • Day 5 (optional) Visit Rwanda Biomedical Centre, Kigali, Rwanda
    • Visit Rwanda’s premier biomedical research institution
    • Learn about potential applications of genetic technologies for health

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Scholarships

Applicants accepted into the course will have their participation supported by the GeneConvene Global Collaborative including travel from within Africa to and from the course including airport shuttle in Kigali, accommodations in Kigali, and meals during the course.

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Field Trip

This is an optional visit to the Rwanda Biomedical Centre in Kigali, a leading health research organization in Africa, with a strong track record of developing, testing and validating innovations for health.  back to the top

Organizing Institutions

Department of Molecular Biology and Biotechnology, College of Natural and Applied Sciences, University of Dar es Salaam.

Uru Research and Development Group

The GeneConvene Global Collaborative at the Foundation for the National Institutes of Health (USA).

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Instructors

Daniel Maeda, Ph. D., Lecturer, Department of Molecular Biology and Biotechnology, University of Dar Es Salaam, Dar Es Salaam, Tanzania

Dr. Maeda is a lecturer and researcher in molecular and cellular biology and biotechnology.  He is trained in stem cell biology and regenerative sciences, molecular and cellular biology and virology.  Currently has research activities that intersect virology, molecular diagnostics, stem cell biology, chemical biology and pharmaceutical biotechnology.  His work in stem cell biology and regenerative sciences focused on the development of hepatic cells upon differentiation from induced pluripotent stem cells and their applications as cellular models, suitability for gene editing/correction, and potential cell therapy use.  As a lecturer he has taught extensively in the areas of molecular and cellular biology, molecular developmental biology, virology and pharmaceutical biotechnology covering the various applications of molecular biology tools including gene editing in basic and applied biomedical research.  He is a professional member of the Cancer Epigenetics Society, Biotechnology Society of Tanzania, and one of the founding members of the Tanzania Society for Human Genetics (now named Tanzania Human Genetics Organization) where he serves as a member of the advisory board.  He serves as a member and current Chair of the Technical Advisory Committee on Medical Devices and In Vitro Diagnostics of the Tanzania Medicines and Medical Devices Authority (TMDA), and a member of the National Biosafety Committee of the United Republic of Tanzania. He also serves as an Honorary Secretary of the African Biological Safety Association (AfBSA).


Juma Hussein, Ph. D., Senior Lecturer, Department of Molecular Biology and Biotechnology, University of Dar es Salaam, Tanzania

Dr. Hussein’s research interests lie in microbial molecular biology, with a specific focus on fungal biodiversity, taxonomy, and systematics. He also has expertise on molecular phylogenetics and mushroom biotechnology. His research employs advanced techniques such as Next Generation Sequencing (NGS), Transcriptomics, Proteomics, and Biomolecular NMR to explore fungal interactions within various ecosystems, including aquatic and terrestrial habitats and making significant contributions to both scientific understanding and practical applications.
Dr. Hussein holds a PhD in Biology with a specialization in Systematics from Uppsala University (UU), a Master’s of Science in Molecular Biology and Biotechnology, and a Bachelor of Science in Chemistry and Applied Microbiology, all from University of Dar es Salaam.

His research has led to a patent on the “Method for production of Oxalis corniculata extract for the treatment of Acrochordons”. Apart from his research, Dr. Hussein is committed to education and mentorship. He teaches courses in Bioinformatics, Molecular Biology, Microbiology, and Biotechnology at the undergraduate and postgraduate level.

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Application Deadline: 14 October 2024

About Instructor

GeneConvene Virtual Institute

The GeneConvene Virtual Institute aggregates, curates and shares knowledge to advance understanding of genetic biocontrol technologies, such as gene drive, as well as selfish genetic elements found throughout nature. The Virtual Institute is an initiative of the GeneConvene Global Collaborative, a program within the Foundation for the National Institutes of Health that advances best practices for genetic biocontrol technologies such as those using gene drive.

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