The field of bioinformatics covers everything from Computational Genomic to Proteomics to Biohealthcare. And while there are a lot of people in this field, the industry is always looking for more fresh faces. Bioinformatics is ever-changing, and there are new and amazing advancements coming to light every single day.
Bioinformatics Degree Success Factors
Successfully earning a degree in bioinformatics means that you are typically detail-oriented, enjoy problem solving, proficient in math and science, have strong written and verbal communications skills, and display strong perseverance and patience.
Bioinformatics Degree Curriculum
A typical bioinformatics curriculum includes courses in drug design, databases and data structures, gene expression analysis, manufacturing practices, the molecular basis of carcinogenesis, biostatistics, food biotechnology, biological computation, and algorithms.
Bioinformatics degrees offer degrees at every level, including certificate, associate, bachelor's, master's, PhD, and dual degrees. A biotechnology degree certificate or diploma qualifies you for a job as a laboratory or research technician. An associate degree from a bioinformatics degree is similar to a certificate degree and qualifies you for a bachelor's degree bioinformatics degree or for entry-level lab assistant positions. It is rare to find a bioinformatics degree that offers a bachelor's degree in biotechnology, but specialized bachelor's degrees in biotechnology do exist. A master's degree from a bioinformatics degrees requires independent research that may ultimately lead to a dissertation and doctorate. The most common bioinformatics degrees combine an M.S. or PhD in biotechnology in conjunction with a Master of Business Administration (MBA).
Career options for aspiring biotechnical scientists include biotechnical scientist, research associate, director, industry researcher, investigator, professor, bioinformatician, and senior scientist, consultant, and project leader.