Master of Science in Genome Science and Technology (MSc)
The Genome Science and Technology graduate program is a trans-disciplinary program that combines genomic research with leading-edge technology development in genome sciences for students pursing an M.Sc. or Ph.D. This program is intended to accommodate the diverse background of students and the broad nature of genomic research in human, animal, plant, microbes, and viruses.
- Generate a culture of innovation and discovery by exposing trainees at all levels to important and timely scientific problems being addressed using emerging technologies.
- Enable researchers to effectively work at the nexus of biology, engineering, and physical sciences by providing a unified training program including joint seminars, cross-disciplinary rotations, and hands-on training in new technology and methodology.
- Provide enriching professional development programs to assist the transition of trainees into both the academic and industrial workforces.
- Foster close interactions, collaborations, and intellectual exchange with other laboratories nationally and internationally.
Our goal is to be among the top 10 graduate programs in genome sciences & technology in North America.
What makes the program unique?
The M.Sc. program in Genome Science and Technology (GSAT) incorporates an innovative rotation program that allows students to access multiple highly skilled research faculty during their graduate program. These rotation opportunities allow students to learn the latest advances in genomic sciences and high through-put technologies. Rotations also allow valuable relationships to form for future collaborative opportunities.
The GSAT program has collaborative associations with both the Centre for High Through-put Technology and the Michael Smith Laboratories. Faculty members associated with the program have diverse backgrounds in genomics and proteomics, bio-engineering, systems biology, chemical biology,device and instrumentation development and engineering.
Systems biology, Genomics and proteomics, Chemical biology, Bioengineering, Device and instrumentation development, Computational biology
GSAT faculty are spread throughout the UBC campus, with most occupying the Michael Smith Laboratories building. A small number of GSAT faculty may reside off-campus at the BC Cancer Research Centre or hospital research labs and Institutions.
Students who are selected for the GSAT rotation scholarship will not need to secure a supervisor before they are enrolled in the program. All other students must secure a supervisor before they can be admitted into the program. As well, they must meet the minimum admission requirements set out by Graduate and Post-doctoral Studies at UBC.
CV, Official transcripts, three letters of reference, Official English exam scores (if required)
TOEFL (ibT) Overall Score Requirement
IELTS Overall Score Requirement
Supervisor commitment required prior to application?
Prior degree requirements
Applicants must have a Life-Sciences degree, with significant experience in a quantitative science OR a Computer Science/Math/Engineering/Physics degree with significant experience in Life Sciences. Although work experience may be taken into consideration if the degree is outside these areas.
Deadline to submit online application. No changes can be made to the application after submission.Transcript Deadline
Deadline to upload scans of official transcripts through the applicant portal in support of a submitted application. Information for accessing the applicant portal will be provided after submitting an online application for admission.Referee Deadline
Deadline for the referees identified in the application for admission to submit references. See Letters of Reference for more information.
January 2020 Intake
Application Open Date02 April 2019
May 2020 Intake
Application Open Date15 July 2019
September 2020 Intake
Application Open Date05 July 2019
All students accepted by a faculty member and enrolled in the program will be paid a minimum stipend of $24,300/year. Students who have been selected for the GSAT rotation scholarships will also have their tuition paid for the first two years of study.
Tuition / Program Costs
|Fees||Canadian Citizen / Permanent Resident / Refugee / Diplomat||International|
|Installments per year||3||3|
|Tuition per installment||$1,665.26||$2,925.58|
|Tuition per year|
(plus annual increase, usually 2%-5%)
|Int. Tuition Award (ITA) per year (if eligible)||$3,200.00 (-)|
|Other Fees and Costs|
|Student Fees (yearly)||$930.14 (approx.)|
|Costs of living (yearly)||starting at $16,884.10 (check cost calculator)|
All fees for the year are subject to adjustment and UBC reserves the right to change any fees without notice at any time, including tuition and student fees. Tuition fees are reviewed annually by the UBC Board of Governors. In recent years, tuition increases have been 2% for continuing domestic students and between 2% and 5% for continuing international students. New students may see higher increases in tuition. Admitted students who defer their admission are subject to the potentially higher tuition fees for incoming students effective at the later program start date. In case of a discrepancy between this webpage and the UBC Calendar, the UBC Calendar entry will be held to be correct.
Completion Rates & Times
This list shows faculty members with full supervisory privileges who are affiliated with this program. It is not a comprehensive list of all potential supervisors as faculty from other programs or faculty members without full supervisory privileges can request approvals to supervise graduate students in this program.
Overall, Christopher Mark (Blood research, antiviral immunity)
Pavlidis, Paul (Bioinformatics, computational biology, genomics, genome, neuroscience, neurobiology, gene expression, microarray, computer science, machine learning, statistics, Bioinformatics and neuroscience, schizophrenia and autism)
Perrin, David (Bioorganic Chemistry, Combinatorial Chemistry Enzyme Mimics Antisense Therapies, Radiopharmaceuticals)
Piret, James (Biomedical engineering, regenerative medicine Cell-based therapies have the potential to provide improved treatments for major diseases such as cancer and diabetes)
Plotkin, Steven (Biophysics theory and computation )
Redfield, Rosemary (Microbial evolution)
Rieseberg, Loren (plant evolutionary biology, adaptation, speciation, crops, weeds, invasive plants)
Robinson, Wendy (Developmental Genetics, Genomics, Reproduction and Growth, DNA and RNA Chips, Bioinformatics, Medical Genetics, Human Development, Epigenetics, miRNA, Preterm Birth, Placenta, Mosaicism, Fetal Growth, DNA methylation, Sex differences)
Rossi, Fabio (Stem Cell Regenerative Medicine blood, Stem cells, regeneration, gene therapy, control of cell fate)
Ryan, Katherine (drug molecules in use today are organic compounds isolated from organisms such as bacteria, plants, and fungi; understand how natural products are made.)
Tokuriki, Nobuhiko (Experimental evolution of proteins and molecular networks.)
Vallance, Bruce (Enteric bacterial pathogens, innate immunity, instestinal inflammation, host defense, inflammatory bowel disease, immunity in health and disease)
Wasserman, Wyeth (Bioinformatics, computation analysis of human genome, gene regulation, rare pediatric disorders)
Withers, Stephen (Enzymes and Proteins, Blood Substitutes, Organic Molecules and Biomolecules, Biological and Biochemical Mechanisms, Diabetes, Drug development, enzyme inhibition, carbohydrates, glycobiology, metagenomics, directed evolution)
Yadav, Vikramaditya (Biotechnology, Bioinformatics, Biomass (Energy), Bioremediation, Bioactive Molecules, Biomaterials, Structural Tissue Engineering / Biomaterials, Biological and Biochemical Mechanisms, Synthetic biology, Metabolic engineering, Biocatalysis, Bioprocess engineering, Bioremediation, Medical biotechnology, Tissue engineering, Drug delivery, Drug discovery & development, Technoeconomics, Vaccines)