Career in Genome Analysis | A Brief Guide

 

Career in Genome analysis is the study of the structure, function, and evolution of genomes, which are the complete set of genetic information in an organism. Career in Genome analysis has many applications in biology, health, and society, such as understanding the molecular basis of life, identifying the causes and treatments of diseases, and improving agriculture and biotechnology.

The future scope of career in genome analysis is vast and promising, as new technologies and methods are being developed to generate, store, analyze, and interpret large-scale genomic data.

Career in Genome analysis is a rapidly growing field that offers many career opportunities for people with different backgrounds and interests. Genome analysis involves the study of the structure, function, evolution, and interaction of genes and genomes. Some of the applications of genome analysis include:

• Developing new diagnostic tests and treatments for diseases
• Understanding the genetic basis of human traits and diseases
• Improving crop and animal breeding
• Discovering new species and their relationships
• Exploring the origin and diversity of life on Earth

To pursue a career in genome analysis, you will need to have a strong background in biology, chemistry, mathematics, and computer science. Depending on your specific role, you may also need to have skills in statistics, bioinformatics, programming, data analysis, or laboratory techniques. You can start your career in genome analysis with a bachelor’s degree, but you may need to obtain a master’s degree or a doctoral degree for more advanced positions.

There are many different types of careers in genome analysis, such as:

• Computational genomics and data scientist: These are scientists who develop and apply analytical methods and mathematical modeling techniques to the study of genomic systems. With the help of  computational tool and approaches to organize, analyze, and visualize data from genomic sciences and genomic medicine research.
• Technology development: These are technologists who innovate fundamentally new solutions, develop those innovations into useful tools, show those new tools work with exemplar work, disseminate their findings and approaches, and provide a path to commercialization and utilization in basic research and clinical settings.
• Genomics researcher: These are researchers who study the effect of genes on physical traits and how multiple genes and their interrelationships influence the growth and development of an organism. They may work in academia, industry, or government institutions.
• Ethical, legal, and social implications (ELSI) researcher: These are researchers who investigate the ethical, legal, social or policy implications of genetics and genomics related to patient care and research. They may have backgrounds in medicine, genetics, biological sciences, social sciences, ethics, philosophy, history, health services research, public policy or other related disciplines.
• Genomic medicine clinician: These are clinicians who apply genomic information about an individual as part of their clinical care (e.g., for diagnostic or therapeutic decision-making). They may include nurses, nurse practitioners, pharmacists, physicians, and physician assistants.
• Clinical and laboratory geneticist: These are doctors with either a Ph.D. or M.D. who specialize in providing comprehensive laboratory, diagnostic, management, and genetic counselling services for patients with or at risk for genetically influenced health problems.
• Genetic counsellor: These are professionals, with education in genomics and counselling who specialize in helping patients and families make decisions about their genomic health and adapt to genomic risk.

Scientists and other professionals use discoveries in genetics to develop the world, careers in genetics and genomics are growing, given the advances in the field of personalised medicine, DNA sequencing technologies and commercial applications of genetics research.

Genomics’ stands for the study of whole genomes. While ‘genes’ are instructions encoded in molecules called DNA in a cell, ‘Genomics’ is the study of all genes of an organism and or altered genes in each set of conditions (diseased versus healthy). It also encompasses the functional relevance of this alteration. 

Genomics relies on Next-generation Sequencing (NGS) technology. Advances in NGS technologies led to the birth of an era of microbiome studies. The human microbiome, animal microbiome, and soil microbiome are promising cures to diseases like Diabetes, improving livestock health, and promoting sustainable agriculture by suggesting soil improvement/preservation measures.

Career in Genome Analysis Options

• Biomedical scientist
• Clinical research associate
• Epidemiologist
• Forensic scientist
• Clinical scientist, genomics
• Clinical scientist, immunology
• Genetic counsellor
• Medical science liaison
• Physician associate
• Scientific laboratory technician
• Science writer
• Academic researcher
• Plant breeder/geneticist
• Research scientist (life sciences)
• Research scientist (medical)
• Biotechnologist
• Data scientist

To know more about the field of Genome Analysis and the process pipeline included you can join us for a 3 Hours Short Course on Genome Analysis, you can register yourself HERE

A detailed guide to Genome Analysis is available HERE for an in-depth information on the topic.

This article is originally published HERE