A bachelor’s degree signifies that students have mastered the basics in a field. After graduation, you are free to pursue a career with your new knowledge. Alternatively, students dedicated to a higher level of mastery can continue their education by working toward a master's degree.
What is a BSc in Molecular Sciences? It is actually a very broad area of biology that includes many disciplines. It has many similarities with cellular biology, but it also incorporates how physics, chemistry, and general biology interact. Study also commonly involves experience with the popular technology that is employed by professionals in the field today. This experience is usually gained through a combination of class work and clinical or laboratory work.
There are many benefits for students pursuing a degree in molecular science. Because the field is so varied, they will have the opportunity to gain valuable experience in the specific area they want to specialize in. Most career choices after graduation are also among the most fulfilling, allowing professionals to directly help people.
The school, program, and country of study that you choose will determine how much it costs to enter a molecular science program. Online or in-person classes will also make a difference. There is a great deal of variety, so research should be done in advance.
Because molecular science is a very inclusive area of emphasis, there are many different careers students can choose from. Work can be found in laboratories, pharmaceutical companies, law enforcement agencies, research institutions, hospitals, public health departments, and even in universities. Most employment opportunities can be categorized into either practice or research. The former more directly help people on a one-on-one level, while the latter can make a difference on a global scale.
To start your training in the field of molecular science, research different schools and programs. Search for your program below and contact directly the admission office of the school of your choice by filling in the lead form.
Can we generate new organs from cells? How do you design an artificial heart valve? How do biological molecules such as proteins and DNA work? [+]
Can we generate new organs from cells? How do you design an artificial heart valve? How do biological molecules such as proteins and DNA work?
In this degree programme in Life Science and Technology, you will learn how to find answers to questions like these. This degree programme combines elements from a variety of disciplines, including biology, pharmacy, physics, chemistry, and engineering. You will learn how to use this knowledge to create medical applications that make people better or improve their quality of life.For example, we will develop prostheses that can assume bodily functions, or a blood clotting test to make open-heart surgery safer. We will also investigate whether working in shifts is really as unhealthy as we think, which matter in the brain is affected and how biomolecules interact. To this end, Life Science and Technology uses knowledge from various subject fields, such as biology, pharmacy, physics, chemistry, and engineering.Life Science and Technology is a hugely varied field of study, so you can specialize in the area that appeals to you the most. You can choose between Behaviour & Neurosciences, Molecular Life Sciences, Biomedical Sciences and Biomedical Technology.... [-]
Graduates go on to careers in research and development, for example in research institutes or in industries such as pharmaceuticals and biotech. [+]
The Cell and Molecular Biology programme focuses on how human cells function in health and disease. The surge in biotechnology industries in Scotland has led to predictions of a rise in employment in this sector and excellent career prospects for graduates.
Knowing how molecules, cells and organs interact enables biologists to more fully understand the factors that control cell growth and division, what makes some individuals more susceptible to disease than others and the development of more accurate diagnostic methods and new drug therapies or cures.
The programme covers physiology, microbiology, biochemistry and genetics, cellular communication, drug action and molecular medicine. You will engage in high levels of practical scientific work improving your laboratory skills, including a five-day practical molecular biology workshop.... [-]
Housed in a 158,000-square-foot, $36 million center, our program produces students that are in great demand. After all, you get to work shoulder-to-shoulder with some of the best scientists in the country. [+]
Housed in a 158,000-square-foot, $36 million center, our program produces students that are in great demand. After all, you get to work shoulder-to-shoulder with some of the best scientists in the country.
What to Expect
This interdisciplinary major is a rigorous program that includes most of the requirements for both biological science and chemistry majors. The major features practical, hands-on laboratory experience and requires student-conducted research.
To be admitted to the biochemistry and molecular biology major, you must have earned at least 30 semester hours with a minimum 3.25-grade point average on a 4.0 scale. The 30 semester hours must include CHEM 111, CHEM 112, BIOL 101, BIOL 102, and MATH 141, each passed with a grade of C or higher.... [-]
Looking to be on the forefront of cutting-edge technological innovations using new, state-of-the-art laboratories? Find it with a bachelor’s degree in biomolecular engineering—the only one offered in the state. [+]
Students in the biomolecular engineering (BioE) program work at the molecular level with simple and complex molecules. They take courses that cover concepts of thermodynamics, transport phenomena, cell engineering, biophysics, bioinformatics, nanotechnology, and genomics. M.S.O.E. is the only university in the state to offer a bachelor’s degree in BioE.
You’ll sharpen your skills in a suite of cutting-edge laboratories that rival those found in the professional sector, using high-tech instruments like temperature-controlled incubators, atomic force microscopes, macro and micro centrifuges and more.... [-]
If you want to study Life Sciences, our widening access entry may be right for you. The first year of this course is mainly taught at Dundee and Angus College. [+]
Life Sciences at Dundee offers a range of options that emphasise different aspects of the life sciences; organisms and their environment, human health and molecular structures and mechanisms.
This exciting Widening Access Co-curriculum programme, run in collaboration with Dundee & Angus College, gives you the opportunity of securing a place at the University of Dundee if you currently fall short of our entry requirements but meet our Widening Access criteria.Dundee & Angus College
The aim of the first year, taught primarily at Dundee & Angus College, is to provide you with a strong foundation in basic science, giving you the core knowledge and skills to continue in your Life Sciences studies. Key areas will be supplemented through sessions supplied by the School of Life Sciences which will be taught on the University campus.... [-]