Earning a Bachelor in Genetics is an ideal opportunity for people who want to study the diverse views surrounding the evolving field of genetics. The degree program focuses on the scientific study of the organization, function, recombination, regulation and transmission of heritable information at all levels of complexity in biological organisms. Students receiving a degree in genetics can become prosperous and respected with their range of transferable skills.
What is a Bachelor in Genetics? This degree is further education that will equip students with knowledge and skills in the theory of molecular biology and genetics. Students will also learn the basic building blocks of genetics including data recording, analysis and scientific writing. Additionally, a bachelor’s degree in this area enables individuals to develop the intellectual skills needed for success in the global genetics field.
There are numerous reasons for choosing to pursue a Bachelor in Genetics program. Coursework includes Mendelian genetics, chromosome replication and structure, mechanisms of gene regulation, DNA repair and recombination, epigenetic phenomena, sex determination, molecular evolution, and genetic interactions between genomes.
The cost differs depending on the school, and the program length ranges between three and four years. It is essential that you sufficiently investigate the program to ensure that the program offered fits your goals.
Graduates are in high demand for a number of positions, such as roles in universities, hospitals, government departments, research institutes and the biotechnology industry. Students will develop skills needed to address issues relating to the application of experimental analysis to solving problems in genetics. Once students have graduated with a Bachelor in Genetics, they are prepared for advanced study or careers involving genomics and fundamental genetics.
Many domestic and international options are available for the program from a variety of universities. Online courses are an ideal choice for those who live in remote areas around the world with limited access to a school. Web-based options cater to individuals who require a flexible schedule. Search for your program below and contact directly the admission office of the school of your choice by filling in the lead form.
Genetics and Bioengineering Program is a special program combining natural sciences and engineering. The principal is to first understand and explore the biological processes at the cellular level, then correlate this knowledge with different fields of engineering, and finally implement solutions in the industry and technology. [+]
Genetics and Bioengineering Program is a special program combining natural sciences and engineering. The principal is to first understand and explore the biological processes at the cellular level, then correlate this knowledge with different fields of engineering, and finally implement solutions in the industry and technology. Genetics and bioengineering is broadly applicable and used in biomedicine, biotechnology as well as other related fields. Bioengineers are primarily oriented to the application of methods and techniques in the field of engineering and problems in biology and medicine.
The primary use of the biotechnology is based on the design and development of new devices, production of new biomaterials, artificial tissues and organs, as well as development and production of pharmaceuticals. Practical work throughout the course is commonly associated with the ongoing projects at Research and Development Center (RDC) or being conducted in other institutions and companies that IUS has an agreement on cooperation.... [-]
Dynamics of the receptors to which drug molecules bind to is another field of study in our department. Understanding the functioning mechanism of the receptor is the very first step towards developing a way to interfere with its working mechanism. [+]
In today’s world molecular biology, biochemistry and other biological fields are becoming increasingly information driven. Mainly the need of processing massive quantities of sequence information generated by recent developments in genome sequencing and proteome analysis has propelled these life sciences into a new era in which computer science, information technologies, and biology merged into a single discipline as bioinformatics. Accordingly, genetics in conjunction with bioinformatics have been changing the old view in clinical diagnostics. By comprehensive genetic testing, individuals who are more susceptible to disease can be identified before any disease even exists. This way early predictive measures can be taken. Moreover personalized drug design, to tailor a specialized treatment based on your genetic makeup, seems to be a standard way of disease treatment in the near future.... [-]
The Department of Molecular Biology and Genetics prepares students to become researchers in this area of biology.[+]
The Department of Molecular Biology and Genetics prepares students to become researchers in this area of biology. The Department houses state-of-the-art laboratories that allow the study of high-throughput genomics, bioinformatics, recombinant DNA, model organisms, and cell cultures for educational and research purposes. The main focus of research activities is on the molecular genetics and biology of human diseases such as cancer, autoimmunity, and rare inherited neurodevelopmental phenotypes. Students have the opportunity to study with internationally recognized faculty members working at the forefront of research in genetics and cell science.
Why study at Bilkent University... [-]