BSc (Hons) Biology and Data Science (International or Placement Year)

Keele University campus

 

INTAKE: September

Program Overview

The BSc (Hons) Biology and Data Science program at Keele University is an innovative and interdisciplinary degree that combines the study of biological sciences with advanced data analytics and computational techniques. This program is designed for students interested in exploring the intersection of biology and data science, with a focus on leveraging data-driven approaches to solve complex biological problems and drive scientific advancements. Students in this program gain a solid foundation in both biology and data science, covering topics such as genetics, molecular biology, bioinformatics, statistics, machine learning, and data visualization. The curriculum emphasizes hands-on learning through laboratory experiments, data analysis projects, and bioinformatics applications, preparing graduates for diverse and impactful careers in biotechnology, healthcare informatics, pharmaceuticals, research institutions, and beyond. With options for an international year abroad or a professional placement year, students can enhance their learning experience and gain valuable global perspectives or industry insights.

1. Interdisciplinary Curriculum: The BSc (Hons) Biology and Data Science program offers a comprehensive curriculum that integrates principles from biological sciences with advanced data science techniques. Students study foundational biology alongside statistical methods, machine learning algorithms, and data visualization tools, gaining insights into how data analytics can be applied to biological research and healthcare.

2. Bioinformatics and Genomics: Students delve into bioinformatics and genomics, learning how to analyze biological data using computational tools and techniques. They explore genome sequencing, gene expression analysis, protein structure prediction, and phylogenetic analysis, applying statistical and computational methods to derive meaningful insights from complex biological datasets.

3. Statistical Analysis and Experimental Design: The program emphasizes statistical analysis and experimental design in biological research. Students learn how to design experiments, collect data, and apply statistical methods to analyze and interpret biological results. They acquire skills in hypothesis testing, regression analysis, and multivariate statistics relevant to biological sciences.

4. Machine Learning Applications in Biology: Students gain expertise in applying machine learning algorithms to biological datasets. They learn how to use algorithms for classification, clustering, and predictive modeling in areas such as disease diagnosis, drug discovery, and personalized medicine. Machine learning skills are valuable for data-driven approaches in biological research.

5. Data Visualization and Interpretation: The program focuses on data visualization techniques to communicate biological insights effectively. Students learn how to use software tools to create visualizations of biological data, facilitating interpretation and presentation of research findings. Data visualization skills are essential for conveying complex biological information to diverse audiences.

6. Hands-on Laboratory Experience: Laboratory work is integral to the program, allowing students to apply theoretical knowledge to practical experiments. Students gain proficiency in molecular biology techniques, bioinformatics software, and data analysis methods. The program's well-equipped laboratories and experienced faculty provide a stimulating environment for hands-on learning and skill development.

Pollster Education

Location

Keele University campus

Pollster Education

Score

IELTS: 6.5

Pollster Education

Tuition Fee

£ 17900

Undergraduate Entry Requirements

Academic Qualifications: Applicants should have successfully completed their secondary education or equivalent with a minimum overall average of 60% or above.  

English Language Proficiency: 

  • IELTS: Overall score of 6.5, with no sub-score below 6.0.
  • TOEFL: Overall score of 87, with a minimum score of 21 in each section.
  • PTE Academic: Overall score of 64, with no sub-score below 58.

Students must provide:

  • academic marksheets & transcripts
  • letters of recommendation
  • a personal statement - SOP
  • passport
  • other supporting documents as required by the university.

It is important to note that meeting the minimum entry requirements does not guarantee admission, as the university considers factors such as availability of places and competition for the program. Additionally, some courses may have higher entry requirements or additional selection criteria, such as interviews or portfolio submissions.

Keele University offers a range of scholarships and financial support options to attract and assist international students in pursuing their studies. These scholarships are designed to recognize academic excellence, promote diversity, and provide financial assistance to deserving students.

International Excellence Scholarship: The International Excellence Scholarship is awarded to high-achieving international undergraduate students. The scholarship provides a tuition fee discount of up to £2,500 per year for the duration of the undergraduate program. Eligibility is based on academic merit and applicants are automatically considered when they submit their application for admission.

Keele International Student Scholarship: The Keele International Student Scholarship is available to international students enrolling in a postgraduate taught master's degree program. The scholarship provides a tuition fee discount of up to £3,000. Eligibility is based on academic achievement, and applicants are automatically considered when they apply for their chosen postgraduate program.

Commonwealth Shared Scholarship Scheme: Keele University participates in the Commonwealth Shared Scholarship Scheme, which is funded by the UK government. The scheme provides full tuition fees, airfare, and living expenses for students from developing Commonwealth countries. The scholarship is available for selected master's degree programs in specific fields of study.

Global Excellence Scholarship: The Global Excellence Scholarship is awarded to international students who have demonstrated outstanding academic achievement and contribute to the global community. The scholarship provides a tuition fee discount of up to £5,000 for the first year of study. Eligibility is based on academic merit, and applicants are automatically considered when they apply for an eligible undergraduate or postgraduate program.

Country-Specific Scholarships: Keele University also offers scholarships specifically tailored to students from certain countries or regions. These scholarships may vary in terms of eligibility criteria and funding amounts. Examples include the Keele Nigeria Scholarship and the Keele ASEAN Scholarships, which provide financial support to students from Nigeria and Southeast Asia, respectively.

It's important to note that scholarship availability and eligibility criteria may vary each year.

Graduates of the BSc (Hons) Biology and Data Science program at Keele University are well-prepared for diverse and promising career opportunities in fields where biology intersects with data-driven technologies. This interdisciplinary degree equips graduates with a unique blend of biological expertise and data analytics skills, making them highly sought after in various industries such as biotechnology, healthcare informatics, pharmaceuticals, research institutions, and beyond.

1. Bioinformatics Specialist: Graduates can pursue careers as bioinformatics specialists, applying their skills in data analysis and biological sciences to process and interpret large-scale biological datasets. They play crucial roles in genomics research, personalized medicine, and drug discovery, using statistical methods and machine learning algorithms to derive insights from biological data.

2. Data Scientist in Healthcare and Biotechnology: With a strong foundation in both biology and data science, graduates can work as data scientists in healthcare and biotechnology industries. They analyze healthcare data, optimize treatment strategies, and develop predictive models for disease diagnosis and drug development. Data scientists in biotech companies leverage their expertise to drive innovation and enhance research efficiency.

3. Research Scientist in Genomics or Systems Biology: Graduates may pursue research scientist roles specializing in genomics, systems biology, or molecular biology. They investigate the structure, function, and interactions of genes and proteins using computational approaches, contributing to advancements in understanding biological mechanisms and disease pathways.

4. Biomedical Informatics Specialist: In the field of biomedical informatics, graduates apply data science techniques to improve healthcare delivery and patient outcomes. They design information systems, analyze clinical data, and develop algorithms for precision medicine and healthcare analytics, collaborating with healthcare professionals to integrate biological insights into clinical practice.

5. Pharmaceutical Research and Development: Graduates can work in pharmaceutical companies, contributing to drug discovery and development processes. They use data analytics to identify potential drug targets, predict drug efficacy, and optimize therapeutic interventions. Their expertise in biology and data science drives advancements in personalized medicine and pharmacogenomics.

6. Healthcare IT and Analytics: Graduates may pursue careers in healthcare IT and analytics, supporting the implementation of data-driven solutions in clinical settings. They manage electronic health records, design healthcare databases, and develop algorithms for healthcare decision support systems, ensuring data integrity and compliance with regulatory standards.

7. Academic or Industry Researcher: Some graduates choose to pursue further studies through master's or doctoral programs, leading to careers as academic or industry researchers. They conduct independent research, publish scientific papers, and contribute to advancing knowledge in bioinformatics, computational biology, or data-driven biology.

8. Consulting and Advisory Roles: Graduates can work in consulting firms or advisory roles, providing expertise in bioinformatics, data science, and healthcare informatics to organizations seeking strategic guidance on technology adoption, research initiatives, or data-driven decision-making in life sciences.

9. Entrepreneurship and Startups: With their interdisciplinary background, graduates may start their own biotech startups or data science companies, leveraging their expertise to develop innovative solutions for biological and healthcare challenges. They drive entrepreneurship in the life sciences sector and contribute to technological innovation.

10. Regulatory Affairs and Policy: Graduates can pursue careers in regulatory affairs or policy-making, providing scientific expertise to government agencies or non-profit organizations. They contribute to shaping policies related to genomics, biomedical research, data privacy, and healthcare standards, ensuring ethical and responsible use of biological data and technologies.


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