B.S. in Bioinformatics

Undergraduate Entry Requirements

Application Fee: $75

Academic Qualifications: Applicants for undergraduate programs typically require a minimum academic achievement of 65% or above in their previous academic qualifications.

English Language Proficiency:

• IELTS: Overall band score of 6.0 with a minimum of 6.0 in each component.
• TOEFL: Overall score of 80 or higher.

The University of Mary Hardin-Baylor is dedicated to fostering a diverse and inclusive academic community, and it recognizes the importance of supporting international students in their pursuit of higher education. UMHB offers a range of scholarships designed to make quality education more accessible to students from around the world.

International Merit Scholarships: UMHB provides merit-based scholarships to high-achieving international students. These scholarships are awarded based on academic excellence, leadership potential, and extracurricular achievements.

Cultural Exchange Scholarships: To encourage cultural diversity on campus, UMHB offers scholarships for students participating in cultural exchange programs. These scholarships aim to enhance cross-cultural understanding and promote a global learning environment.

Athletic Scholarships: Exceptional athletes can benefit from athletic scholarships, which are available for various sports programs at UMHB.

Leadership and Service Scholarships: UMHB values students who demonstrate leadership skills and community service. Scholarships in this category are designed to recognize and support individuals who have made significant contributions to their communities.

Departmental Scholarships: Various academic departments at UMHB offer scholarships to students majoring in specific fields of study. These scholarships may be tied to academic achievements, research potential, or contributions to the department's goals.

Graduates of the Bachelor of Science in Bioinformatics program at the University of Mary Hardin-Baylor (UMHB) are well-equipped to enter a variety of exciting and rapidly evolving career paths in the fields of healthcare, biotechnology, and research. 

Bioinformatics Scientist: Bioinformatics scientists leverage their expertise in computational biology and data analysis to interpret complex biological data. They develop algorithms and software tools to manage and analyze large datasets, often working in genomic and proteomic research to uncover insights related to diseases and treatments.

Computational Biologist: As computational biologists, graduates apply their knowledge of biology and computer science to model biological processes and systems. They work on research projects that require the simulation of biological phenomena, such as protein folding or genetic variation, contributing to advancements in personalized medicine and drug discovery.

Data Analyst: Bioinformatics graduates can pursue careers as data analysts, where they utilize statistical methods and bioinformatics tools to extract meaningful information from biological datasets. This role is essential in various sectors, including pharmaceuticals, agriculture, and environmental science, where data-driven decisions are critical.

Genomic Data Scientist: With the growing importance of genomics in healthcare, genomic data scientists focus on analyzing genetic data to identify mutations, assess genetic risk factors, and contribute to the development of targeted therapies. They work closely with clinical teams to interpret genetic information and guide treatment options for patients.

Research Scientist: Graduates may find roles as research scientists in academic or industry settings, where they design and conduct experiments to explore biological questions. They often collaborate with interdisciplinary teams, integrating bioinformatics approaches into experimental biology to drive innovation in research.

Bioinformatics Software Developer: As bioinformatics software developers, graduates create and maintain software applications used in biological research. This role requires a strong understanding of programming languages and bioinformatics algorithms, enabling them to develop tools that enhance data analysis and visualization.

Clinical Data Coordinator: In the healthcare sector, clinical data coordinators manage and analyze clinical trial data to ensure accuracy and compliance with regulatory standards. They play a key role in the research process, working to facilitate the efficient collection and analysis of patient data during clinical studies.

Pharmaceutical/Biotechnology Analyst: Graduates can work as analysts in pharmaceutical or biotechnology companies, where they assess the feasibility and impact of new drug candidates. They analyze data from clinical trials and contribute to the strategic decision-making processes related to drug development.

Health Informatics Specialist: Health informatics specialists focus on the intersection of healthcare and technology, using bioinformatics principles to improve healthcare delivery and patient outcomes. They may work with electronic health records, clinical decision support systems, and data analytics tools to enhance healthcare services.

Regulatory Affairs Specialist: Bioinformatics graduates may also pursue careers in regulatory affairs, where they ensure that new medical products comply with government regulations. This role involves working with data from bioinformatics studies to support submissions to regulatory agencies.