Technological advances, such as complete genome sequencing and high-throughput biochemical analysis of intracellular processes, have revolutionized biological research and are the foundation for innovation in clinical medicine and industry. However, utilizing these data to improve our understanding of the living world and to develop useful applications in biotechnology and medicine remain separate and challenging propositions. This cluster program will prepare the next generation of scientists and engineers to take on these challenges by drawing upon biotechnology, systems biology, and synthetic biology. Northwestern University has a strong history of interdisciplinary and interdepartmental research in the life sciences and engineering, from which these fields have emerged as powerful opportunities for students.
Biotechnology
Biotechnology is a burgeoning area of research worldwide, both industrially and academically, that combines the expertise of multiple disciplines such as engineering, life sciences, and medicine. The emergence of new tools and ideas in biotechnology continues to accelerate, and this cluster program provides an interdisciplinary program with significant exposure to the concepts and experimental approaches in a variety of biotechnology-related research areas. Substantial technical and intellectual skills will be developed in areas such as stem cells, gene therapy, regenerative medicine, microbiology, molecular genetics, biochemical engineering, cell and tissue culture technologies, metabolic engineering, biomaterials, hybridoma technology, and separation technologies.
Systems Biology
With the advent of improved techniques for acquiring large-scale bioinformatic data, systems biology has emerged as a new scientific field dedicated to analyzing these large datasets to gain understanding. Given the special properties of biological systems, this field requires unique quantitative and analytical approaches. For example, biological systems are often characterized by complicated interactions between multiple components, such that the behavior of these complex systems is often not predictable based solely on an understanding of the components that compose the system - this is a property described as emergence. Because these properties are exhibited in many different forms across the biological spectrum, systems biology research stands at the fore of many fronts in biomedical science. Training in systems biology will develop the conceptual understanding, technical skills and tools, and scientific background required to address these challenges and capitalize upon this new realm of biological research.
Synthetic Biology
Synthetic biology seeks to develop the technologies and knowledge necessary to design and construct novel living systems. These efforts serve to both better our understanding of the natural living world and enable us to harness the immense repertoire of biology to meet pressing societal needs, including the sustainable production of biofuels and materials using microorganisms, using engineered cells as programmable therapeutics, and to facilitate environmental stewardship and conservation. Combining methods, principles, and knowledge from disciplines including biology, engineering, mathematics, and computational science, synthetic biology promises to transform both the life sciences and engineering.
Academic qualification equivalents
Applicants must have a bachelor’s degree
English language requirements
College Type | Private |
Campus Setting | Urban |
Annual Endowment | 11 billion USD |
Student Retention Rate | 72% |
Work-study program | Yes |
Mode of Program | Full time; Part-time; online |
Campus Housing Capacity | 52% |
English language proficiency score | TOEFL or equivalent |
Financial Aid | Available as grants, awards, and scholarships |
Admission Helpdesk | admissions@northwestern.edu |
An anticipated budget for overseas students wishing to study in the United States is calculated below for all prospective students of the institute applying for the upcoming session.
Type of Fee | Amounts Per Category (USD) | ||
---|---|---|---|
Living On-Campus | Living an Off-Campus | Being a Resident Assistant | |
Tuition | 56,286 | 56,286 | 56,286 |
Fees | 459 | 459 | 459 |
On-Campus Housing/Meals | 17,019 | 0 | 0 |
Off-Campus Housing/Meals | 0 | 17,019 | 0 |
Books & Supplies | 1,638 | 1,638 | 1,638 |
Personal Expenses | 2,201 | 2,201 | 2,201 |
Transportation | 1,050 | 1,050 | 1,050 |
Loan Fees | 55 | 55 | 55 |
Total | 78,654 | 78,654 | 61,635 |
Graduate school tuition varies depending on the programme. However, the following is an estimate of the cost:
Fees | Amount (USD) |
---|---|
Tuition | 41,612 – 55,321 |
Health Insurance | 4,050 |
Housing | 2,518 - 24,000 |
Others | 9,222 – 15,300 |
Total | 57,402 – 98,671 |
Tuition Fees in USA (1st Year Average) | BE/Btech: USD 28300 | MS: USD 22693 | BBA: USD 26616 | MBA: USD 29558 | BSc: USD 29418 | MA: USD 20452 | MIS: USD 22133 | MFin: USD 37683 | MEng: USD 29558 | MIM: USD 35301 | MEM: USD 23254 | MArch: USD 34741 | MFA: USD 28857 | BHM: USD 27176 |
Average Accomodation & Food Costs in USA | USD 700 to 1000 Per Month |
Entrance Exams in USA | TOEFL: 86 | IELTS: 6.5 | PTE: 60 | GRE: 309 | GMAT: 560 | SAT: 1177 |
Work and Study in USA | Permitted for 20 hours/week with a valid study permit. Know More |
Post Study Work Permit in USA | One to Two Years after graduation depending on the course. |
Cost of Student Visa in USA | USD 160 |
Student Visa in USA | F1 Visa for USA allows you study permit in USA in full time academic courses. Any accredited school, college, university, academic institute, seminary, or conservatory in USA must accept you beforehand to apply for F1 visa in USA. Know More |
Intakes in USA | There are Three Intakes in USA: Fall (August-September), Spring (January) Know More |
Top Job Sectors in USA | Health Care, Education, Construction, Hospitality & Tourism, Business Services, Finance. |
Economy in USA | GDP Growth of 2.1% (Q4 2019), The Larges Economy of the World by Nominal |
Tuition & fees :
$ 73,464
Total
$ 73,464