Unravelling the human roadmap
THE inroads made by sequencing the reference human genome and subsequently a large number of human beings and other species, has been a remarkable scientific achievement for the past 15 years.
Through the sequencing of deoxyribonucleic acid (DNA), scientists have been able to understand normal genetic variation and how it leads to disabilities in some human beings as well as gain knowledge about the evolution of species.
Monash University Malaysia’s BSc in Genomics and Bioinformatics programme is a three-year course that will expose students to the infinite possibilities that come from learning about genes and genomes through high-throughput sequencing and bioinformatics analyses.
“Genomics is the process of examining the complete genetic make-up of an individual, population or species by sequencing nucleic acids – the basic chemical units they are made of,” said Monash University Malaysia School of Science, Genomics Assoc Prof Dr Qasim Ayub.
Where genome sequencing and the subsequent release of results took years in the past, it can now be done in a matter of hours or days. As a result, there is a plethora of information released on a daily basis. This has necessitated the development of computational tools to assist researchers in data analysis.
Students who enrol in this programme not only learn about genes and genetics, but they also learn to use tools to mine data efficiently and examine relationships between the sequences or identify differences between them.
“A foundation of genomics and population genetics gives you the theoretical basis for the course and then bioinformatics will give the tools that will help you access the data,” said Dr Qasim.
Students pursuing this programme will get to access the most up-to-date and sophisticated tools in the field of bioinformatics. The Genomics Facility at Monash University Malaysia is equipped with Illumina’s MiSeq and Oxford Nanopore Technologies MinION platforms, which represent the short and long read sequencing technologies respectively, that are currently in use.
“We use these machines to sequence genomes, and use bioinformatic tools to understand the sequencing data. We can use tools to either map the sequences that are generated by these machines to a reference genome, such as the human reference genome, or assemble it from scratch, make sure it is reliable and subsequently examine the variation within the sequencing data to address biological questions,” said Dr Qasim.
Graduates of Monash University Malaysia’s BSc in Genomics and Bioinformatics programme will be very versatile. The variety of jobs available will provide students an array of career paths to choose from.
Dr Qasim drove home the point: “Right now, the limitation is that we don't have a wide array of expertise in bioinformatics. Furthermore, the techniques learned aren’t just confined to the field of biological sciences, but can be used in personalised medicine, computer sciences, banking, finance and marketing, just to name a few.”
The Harvard Business Review labelled data scientists as “the ‘sexiest’ job of the 21st century” and there is a growing demand for professionals who can manipulate large datasets to obtain useful insights from them.
■ For more information about the programme at Monash University Malaysia’s School of Science, log on to www.sci.monash.edu.my