This programme, commonly referred to as the Internuniversity Programme in Molecular Biology (IPMB), is jointly organised by
IPMB is endorsed and supported as an international programme by the Flemish Interuniversity Council (VLIR-UDC). Although originally designed to meet the needs of students from developing countries, the programme also welcomes non-traditional and reorienting student seeking to enter the fascinating world of molecular biology. Erasmus-Socrates students studying at one of the organising universities for one or two semesters are also most welcome to attend classes and acquire laboratory skills.
Students are awarded a joint degree from the participating institutions.
The IPMB is organised over two academic years. In view of the diverse background of its students, the first year consists of in-depth courses covering the most important topics in molecular biology. By the end of the first year, you will have obtained the level of knowledge required to take succesfully part in the advanced, specialisation courses of the second year.
Intensive laboratory training will prepare you to embark on the preparation of your thesis, which you will complete in the second year along with four advanced courses followed by three specialisation courses in the field of either human health, animal production or plant production. Much attention is also paid to the preparation and writing of the thesis, which is an original research project completed under the guidance of a supervisor and defended in public.
The Master of Molecular Biology (Interuniversity Molecular Biology - IPMB) programme is intended to offer theoretical and practical training to young scientists from developing countries, who are involved in education/research in human medicine, animal production or plant production.
This programme is designed to train these students to become capable, critical and self-reliant scientists who are able to apply the knowledge acquired to contribute to the further development of their country through their involvement in education, research and policymaking.
IPMB graduates will be able to ensure that the potential offered by molecular biology and biotechnology in terms of human and veterinary medicine and animal and plant production, find due application in their country.
Although originally conceived to meet the needs of students from developing countries, the programme offers an excellent opportunity for all students, including non-traditional and reorienting students, to study molecular biology in an international context.
Students are expected to:
IPMB graduates find employment in universities, hospitals, private and governmental research laboratories and patenting bureaus, as lecturers, consultants and advisors to policy makers, among other careers. Many graduates go on to begin PhD programmes in Belgium or abroad. Students from developing countries can apply for a VLIR-UOS sandwich PhD scholarship. Flemish students can apply for a PhD scholarship of VLIR-UOS to make a PhD on developmental relevant topics.
Do you have a Bachelor’s degree in biology, biotechnology, chemistry, biochemistry, bioengineering or biomedical science, and are you still fascinated by the biochemical unity that underlies the world’s biological diversity? Then the Master in Molecular Biology is the programme you’re looking for! This high-level scientific programme with strong multidisciplinary courses combines a theoretical formation with research-oriented skills. The Master is an interuniversity programme, jointly organised by the Vrije Universiteit Brussel, KULeuven and the University of Antwerp, all located in Belgium. Students can choose between the Profile Biotechnology for Global Health and the Profile Agro- and Plant Biotechnology.
Molecular Biology is a rapidly developing discipline. It stands at the crossroads of chemical, biological, physical and computational sciences and focuses on the understanding of cellular processes, biological molecules and their interactions. Molecular Biology is a multidisciplinary area of study that deals with the structure and function of molecules as well as their interplay in creating the phenomenon of life.
After graduation, you will be able to contribute to the improvement of human health or plant production through a molecular biological approach. You will know how to appraise the scientific and social aspects of applied molecular biology.
We train our students so they can cope with a wide range of scientific problems as well as the development of preventive strategies, diagnostic techniques and therapies while being aware of the ethical issues related to this field.
A critical mind will allow you to consider and reflect on existing and new theories within the study field and will help you to solve global problems or issues that both developing and developed countries are facing.
The programme content has been developed by several outstanding and multidisciplinary scientific teams. The advanced courses and electives are taught by leading researchers with a proven scientific track record, thus contributing to the research-oriented nature of the programme.
The two-year Interuniversity Master in Molecular Biology requires full-time attendance and active participation in lectures and discovery-based laboratory work to develop the mentality that drives the progress of science.
During practical training, problem-solving formats are used in which students work together to make observations and to analyze experimental results. Students who learn via problem-solving formats demonstrate better problem-solving ability, conceptual understanding and success in subsequent courses than those who learn in traditional, passive ways.
Masters of Molecular Biology find employment in universities, hospitals, private and governmental research laboratories, patenting bureaus, as lecturers, consultants, advisors to policy-makers, etc. Many graduates proceed to PhD-programmes in Belgium or abroad.
Postgraduate Loans are now Open for Home/EU students - https://www.gov.uk/postgraduate-loan/how-to-apply
Scholarships & Discounts available
Molecular biology and genomics play an increasingly important and exciting role in research on medically important parasites and arthropods, and this award provides advanced training in this field. It provides an important foundation of knowledge of the basic biology of parasites and vectors, followed by specialised modules on the molecular and cellular biology and functional genomics of parasites and vectors, as well as related public health, and tropical health issues. There is a significant practical component throughout the programme, and the laboratory work undertaken provides a wide range of techniques that would be highly relevant to a future research career. Following the taught component, participants complete a dissertation including a period of applied research either overseas or in Liverpool.
LSTM education courses are taught within a dynamic environment by staff working at the cutting-edge of research in tropical medicine and global health. They are designed to enable the professional development of the student, to be relevant to students from both the UK and overseas and to promote approaches to study that will enable students to continue their learning into the future.
This course aims to:
Equip students with the knowledge and practical skills to develop a career in molecular research in parasitology or vector biology.
Provide practical experience of a range of specialised technical and analytical skills relevant to the study of the molecular biology of parasites and disease vectors.
Enable students to conduct independent research in the laboratory and/or field.
Produce graduates who are experienced, committed, informed, proactive and effective professionals, capable of taking substantial and leading professional roles.
Facilitate high quality learning that is informed by critical analysis of current research.
Develop independent and reflective approaches to study that will enable graduates to continue to learn in the future.
Many alumni of LSTM hold prominent positions in health ministries, universities, hospitals, and international organisations throughout the world. Graduates are competitively placed to begin PhD programmes, seek employment as research assistants, work in developing countries with a wide variety of employers, or return to previous employers with enhanced knowledge and skills with which to advance their existing careers. Graduates of the MSc Molecular Biology of Parasites and Disease Vectors have undergone excellent general preparation for a career in laboratory research in biological sciences, in which molecular biology is widely applied, and are particularly well placed for careers in research or training in areas related to the molecular biology of parasitic and vector-borne tropical diseases.
Professor Mark Taylor "Parasitology at LSTM studies how best to treat and control parasitic diseases such as malaria and the Neglected Tropical Diseases. We cover the entire spectrum of translational research from the discovery of new drugs, vaccines and diagnostics through to large scale global programmes aimed at eliminating diseases such as elephantiasis and river blindness. In addition to the traditional parasites and their vectors, we also work on other important tropical diseases such as snakebite, arboviruses, and tuberculosis."
The aim of this degree is to form expert Molecular Biologists, with advanced theoretical knowledge, research competence and practical skill.
The Master's degree in Molecular Biology is intended for students with a bachelor in Molecular Biology or similar degrees. The aim of this Master degree is to shape Molecular Biologists with a good theoretical knowledge and a practical expertise in bench-work procedures, instrumental operations and analytical methodologies involved in data acquisition and analysis. The degree course imparts a thorough command of the scientific investigation process, providing graduates with the competence to work independently and to take on the organization and responsibility of projects. During the first year the curriculum consists in fundamental courses, which constitute the key cultural elements required for an in depth understanding of modern molecular biology. In the second year approximately two thirds of the students' activity are devoted to the preparation of an experimental thesis entailing experimental work in a laboratory. This experience will provide a fundamental cultural resource, the capacity to engage in critical analyses and the ability to take responsibility of scientific projects.
The Master's degree in Molecular Biology qualifies to engage in research activity within public or private organizations in the pharmaceutical, agro-industrial and biotechnological sectors. The Master's graduate may be employed in professional project activities or in counseling within the public administration, in the human health or public hygiene divisions.
After passing the examination for Professional Practice, the Molecular Biology Master's graduate may enroll in the Biologists' professional register (section A), which entitles to the warranted activities, under the title of Biologist.
For general information on application procedures, please check How to apply.
The University of Padova, the Veneto Region and other organisations offer various scholarship schemes to support students. Below is a list of the funding opportunities that are most often used by international students in Padova.
You can find more information below and on our website here: http://www.unipd.it/en/studying-padova/funding-and-fees/scholarships
You can find more information on fee waivers here: http://www.unipd.it/en/fee-waivers
The Department of Biochemistry and Molecular Biology is home to more than thirty well-funded research groups, offering opportunities for research that is fundamental in advancing basic science and at the same time provides knowledge that is being translated to help tackle human diseases. The graduate programs in Biochemistry and Molecular Biology therefore provide advanced research-based education with the goal of preparing students for a career in academic, industrial or professional positions in British Columbia and beyond.
The Department offers MSc and PhD degree programs, with the option to transfer into the PhD track during the second year. Enrollment in the two programs combined has been steadlily increasing over the last 5 years from about 65 to 84 grads. The requirements for formal course credits are usually completed within the first two academic terms. Course topics include laboratory techniques, nucleic acids, membrane structure and function, cellular regulation, protein chemistry and molecular biology. Additional options include bioinformatics, genome analysis, cell growth and differentiation, bacterial pathogenesis and immuno-genetics. The balance of the program is research intensive and assessed by examination of a dissertation.
The Department of Biochemistry and Molecular Biology has a rich history and on-going record of exceptional academic and research excellence. The Department was home to Nobel Laureate, Michael Smith and his legacy is sustained through involvement of a number of our professors with the Michael Smith Laboratories and the closely-associated Centre for High Throughput Biology. The majority of our research laboratories are located in the Life Sciences Institute, the largest multidisciplinary research hub at UBC. Key features of our research and graduate programs are that they are set up to enable top-notch work, with the very best facilities and with opportunities for collaboration with researchers from a range of disciplines. Research groups in the Life Sciences Institute include those with a focus on diabetes, cardiovascular disease, macular degeneration, bacterial and viral diseases, chemical biology, blood research, molecular epigenetics and others. We encourage you to visit the Department website to check out the specific research interests and achievements of the professors in the Department. A number of our professors have developed and maintain major and cutting-edge equipment that underpins research using macromolecular crystallography, mass spectrometry, nuclear magnetic resonance spectroscopy, high-throughput imaging and a range of spectroscopic techniques for macromolecular analysis.
The Department provides tuition benefits to more than half of all students and scholarships to assist with travel to meetings. The Department makes every effort to enable students to gain teaching experience through teaching assistantships, mostly to support teaching in undergraduate laboratory and lecture courses and for which further stipend support is achieved. Overall, the average support package for graduate students exceeds $27,000 per annum.
During the past year we undertook a detailed survey of all graduates who completed their graduate programs in the period from 2003-2014. Of the total of 138 graduates, we have tracked the career progress of more than 120 so far. Of this total, 35 have completed further training in graduate and postdoctoral positions, 20 have entered a professional program (mostly in Law or Medicine), 11 have progressed to a tenure-stream faculty position and 32 have full-time research positions in academia (8), industry (21) or government departments (3). Others have established careers in technical writing or management and the most recent cohort (13) are still at a very early stage of career development. Although we need to continue to track and refine our understanding of career outcomes, it is very clear that our programs enable our graduates to achieve career success in a number of academic, professional and commercial areas.
The biotechnological applications of molecular biology underpin major industries in the medical and agricultural sectors. Insights from the study of genetic material are already benefitting the development of new diagnostic tests, therapeutic agents, bioenergy production systems, improved crops and more. The range and value of these developments is rapidly increasing.
This exciting MSc Molecular Biology and Biotechnology program provides training for bioscience graduates to develop confidence and independence in their practical skills and knowledge relevant to careers in this area. Successful graduates will be ready to undertake further study at PhD level or to enter employment in the biotechnology sector.
You’ll learn essential practical skills; study the relevant theory in the Departments of Molecular Biology and Biotechnology (MBB) and Chemical and Biological Engineering (CBE); and carry out an individual research project, in which you’ll learn how to design and conduct research, keep records and present the research in different styles.
Our graduates work in health care, pharmaceuticals, food safety and production, brewing and agrochemicals. Many of our masters students go on to do a PhD then pursue a career in research; others have gained entry to the prestigious NHS Scientist Training Programme (STP).
The 2014 Research Excellence Framework (REF) ranks Sheffield No 1 for biomedical research and in the UK top five for biological sciences generally. We have regular seminars from distinguished experts, and our motivated staff undertake collaborative research ranging from biotechnology to medicine.
Our masters courses give you a solid grounding in experimental science, with personal supervision and tutorials by experienced scientists, based in modern and well-equipped labs, leading on to a research project in which you design and conduct your own research.
You will learn cutting edge science from research leaders, and gain practice in reading the scientific literature and writing reports.
Assessment is based on a combination of coursework, project work, formal examinations and a dissertation.
Choose any three from:
This course enables you to study cutting edge molecular methods employed for the understanding of molecular mechanisms of diseases and for their diagnosis and treatment. Your studies will be underpinned by essential knowledge in genetics, cell signalling and molecular medicine.
You will be offered the flexibility to select option modules that reflect your own interest in molecular biology and these will be combined with core modules and an independent research project. The course is suitable for newly qualified graduates, those employed in related work and those with medical qualifications.
The following modules are indicative of what you will study on this course.
The course is accredited by the Institute of Biomedical Science (IBMS).