Pharmaceutical Biotechnology MSc/PG Dip/PG Cert This course equips you for the rapidly expanding field of biopharmaceuticals, covering a broad range of topics relating to DNA and protein-based medicines In the third semester, the learning venue will depend on your dissertation topic and will be aimed at guided self-study Degree: MSc Molecular Biology and Biotechnology, Graduate role: PhD in Plant Molecular Biology, University of Melbourne, Australia Entry requirements A degree or equivalent university qualification in molecular biology or a related subject (eg biochemistry, genetics, biotechnology, and microbiology) For an MSc award you must successfully complete credits of taught modules and a credit master's research project. This programme develops comprehensive knowledge and understanding of food science and bioprocessing in the 21st century. As such it focuses on biotechnology and sustainability alongside food quality and supply chain management
Molecular Biology and Biotechnology MSc | | Postgraduate | The University of Sheffield
Our MSc course in Biotechnology is about discovery, innovation and translation of knowledge to application of novel products. The emphasis of the course is about the impact of modern biotechnological tools and approaches to address today's global challenges, from food to therapeutics. You'll learn about fundamental cellular mechanisms, genetic manipulations of biological systems and production processes.
You will be trained in high throughput technologies in taught modules such as advanced molecular methods and be equipped with strong research skills throughout the curriculum. Industrial and commercial aspects of biotechnology bring you closer to the current trends and careers in the field. You can carry out the project on campus or as part of an industrial placement. Placements in industry will be subject to meeting academic requirements.
The majority of the course is dissertation for msc biotechnology at Sutton Bonington Campus, with one taught module being delivered at Jubilee Campus, dissertation for msc biotechnology. Research projects are hosted by supervisors based at Sutton Bonington and University Park Campus.
The course consists of credits and is taught over three semesters. Taught modules contribute credits, with a research project and a dissertation contributing to 60 credits.
This course offers unique components related to specialist skills in three pathways:. This pathway provides theory and practical skills in plant genetic manipulation, plant breeding and genome research, which underpin all aspects of agriculture and horticulture worldwide. Specialist modules will provide an understanding of dissertation for msc biotechnology cell biology and the role of phytohormones in plant physiology.
Genetic improvement of crop plants forms part of a pipeline to transfer novel plant traits into crops. A series of off-site visits will inform you about the latest technologies and research allied to plant improvement, and provide an insight into current plant research in the agricultural and agro-industry sectors.
This pathway offers knowledge in using micro-organisms as production platforms for valuable compounds such as therapeutics, biofuels, dissertation for msc biotechnology, food additives and antibiotics. It covers a range of topics in expression systems, from metabolic engineering to synthetic biology, dissertation for msc biotechnology. Specialist modules will provide you with an understanding of how antibody biotechnology can be applied to solve problems in an industrial and biomedical context.
You'll use case studies and practicals to understand production processes in Industrial Biotechnology. Theory is supported by practical based learning approaches and industry visits. This stream covers a range of topics from molecular techniques used to study gene function in eukaryotic cells to whole organisms, to more specialised aspects of bioinformatics, molecular immunology, developmental epigenetics, molecular nutrition, reproductive biotechnologies and stem cell technologies. Our areas of expertise include multidisciplinary projects, dissertation for msc biotechnology, e.
transgenic technologies, in vitro embryo production systems, biomarker discovery and genetic and epigenetic basis of disease. If you are completing your project in industry you will have an industrial supervisor who will determine the topic, dissertation for msc biotechnology. You will use data collection and appropriate quantitative analysis in preparation for the report and poster presentation. You will be introduced to modern dissertation for msc biotechnology methods in biotechnology.
Particular focus will be on transgenic methods dissertation for msc biotechnology the use and application of bioinformatics in understanding the functional roles of genes, metabolites and proteins and how they can be analysed using a variety of new technologies, dissertation for msc biotechnology, including deep sequencing, proteomics, mass spectrometry and transcriptomics.
You will gain knowledge in applying, analysing and manipulating cells using current molecular methods and high-throughput technologies. Microbes, Plants and Animal cells have been largely exploited for the controlled production of substances of interest in biotechnology. This module will dissertation for msc biotechnology an overview of nascent and current trends in development and commercialisation of products relating to food, energy, and pharmaceuticals and the need to push towards fully sustainable bio-production of a larger spectrum of substances and dissertation for msc biotechnology economic feasibility.
The module will also highlight ethical and environmental concerns on the use of genetically modified biological systems. This module aims to provide students with the skills, knowledge and practical experience required to respond to the challenges involved in managing, commercialising and marketing technological innovation and new business development. The content of the module focusses on career management skills and the knowledge required to gain success within the global job market.
You will have the opportunities to evaluate your own skills, interests, experiences and goals to dissertation for msc biotechnology suitable opportunities.
Training will be given in core competencies and techniques needed to be able to make applications that have positive impact on employers. This module will provide practical experience in basic laboratory techniques including microbiological methods media preparation, sterile technique, growth measurement etcbasic biochemical methods buffer dissertation for msc biotechnology and centrifugation and molecular biological techniques preparation and analysis of DNA.
Practical work will be supported by lectures to provide an understanding of the basis of the techniques, the limitations of the methods and the appropriate methods of analysis.
The module deals with the production and perception of plant signalling molecules. The ways in which these signals dissertation for msc biotechnology integrated to ensure appropriate responses to environmental conditions or plant pathogen attack are discussed.
The processes of floral development and reproduction are some of the most critical stages occurring during plant growth and development. They are fundamental for plant breeding, crop productivity and horticulture. The significance of plant reproduction is particularly pertinent to issues of food security and the future development of high yielding crops.
The module will cover the application of the latest and emergent biotechnology options for crop improvement in relation to crop production. This will involve consideration of the genetic engineering of plant species to introduce new traits and new genetic mapping techniques as an aid to conventional plant breeding programmes. You will visit research institutes and agri-biotech companies to see the latest technologies in action. The visits will include days spent at Rothamsted Research, NIAB, the Royal Botanic Gardens Kew and several plant breeding companies.
Instruction will be in the form of lectures and practical demonstrations including cereal transformation, molecular approaches to varietal analysis and image analysis for varietal profiling. A visit to Elsoms Seeds will enable you to see seed quality testing, breeding strategies for vegetable crops, trialling and tissue culture for homozygous plant production.
This module provides you with the information and advice necessary to choose and carry out a project topic. Early in the Autumn Semester, a list of project topics will be provided and discussed with you, dissertation for msc biotechnology. This is followed up by individual tutorials with the module convenor to assist project choice, dissertation for msc biotechnology.
Project areas reflect the current research expertise within the Plant and Crop Sciences Division. All projects involve laboratory work and many involve the introduction and expression of agronomically important genes dissertation for msc biotechnology crop species using tissue culture and molecular techniques.
Individual tutorials with project supervisors provide the support allowing you to present a completed research plan which will form the basis of seminar dissertation for msc biotechnology in the Spring Semester. During the Autumn Semester you are required to select a recent plant biotechnology research paper for oral presentation.
This allows you to develop the skills of summarising a primary research paper and developing a group discussion. The module is completed by an extensive literature review guided by the project supervisor.
The genetic improvement of crop plants is critical to address issues of food security for a growing world population and in the face of a changing climate. It is also the key to tackling environmental degradation and to meeting the increasing strict regulations on agricultural pollution which are coming into force in many Western countries. While these issues are not identical, they are linked and efficient plant breeding can be part of the solution to both.
The module will cover visits to industries relevant to animal biotechnology. The objective is to dissertation for msc biotechnology you with an understanding of the processes involved in research and development.
Activities include lectures and tutorials. This module will introduce the concept of metabolic control at the gene expression level with particular reference to the role of nutrients in these processes.
Through the provision and application of relevant biochemical and molecular biology information, you will gain an understanding of the regulatory effects of nutrients, either directly or indirectly, on gene expression and how this influences metabolism and growth in eukaryotic systems.
This module will cover current state of the art technologies used in the animal biotechnology industry. Content includes the genetic modification of animals and animal cells with the purpose of using them as bioreactors, models of human disease and for regenerative medicine. This module dissertation for msc biotechnology provide you with an understanding of how antibody biotechnology can be applied to solve problems in an industrial and biomedical context.
It will cover the following: antibody structure and function, monoclonal antibodies, IgE and its receptors, the immunoglobulin system, the structure of immunoglobulins and their complexes with antigen, solution structure and properties of antibodies, and other related topics.
This module considers dry lab demonstrations on techniques in animal and laboratory research, research processes in government and industry funded research, experimental design, data analysis and interpretation and other topics as deemed appropriate to the module content, dissertation for msc biotechnology. This module will cover visits to industries relevant to Microbial Biotechnology. The objective is to provide you with an understanding of commercial development of products and the processes involved in research and development.
A dissertation for msc biotechnology range of industries from pharmaceutical to food will be covered as a part of this module. Activities include industrial visits, team based learning, lectures, seminars and tutorials. The module content includes advanced aspects of protein expression and the application of gene engineering to the biotechnology industry. This module covers underpinning aspects for bio-processing technologies including: an overview of microbes, including structure, function, kinetics and components; metabolism and biomolecules; microbial technology including challenges in scale up of different production processes.
This is a core module taught to MSc in Microbial Biotechnology specialism and is designed to introduce you to basic techniques for use in research project. In addition, current trends in microbial biotechnology with microbes as examples will be examined from the current literature. As a research preparation module it is intended to supplement and prepare you for D24PRO by gaining information on relevant techniques both in the lab and also helpful in data interpretation.
This module considers advanced aspects of yeast cell physiology, dissertation for msc biotechnology, biochemistry and the fermentation dissertation for msc biotechnology, delivered using a blended learning approach. The content is related to yeast and fermentation, particularly relevant to the production of fermented beverages, biofuels and other related products.
The specific characteristics of yeast which make this organism valuable will be described in detail. Aspects including functionality, metabolic pathways and their ability to convert substrates into commercially valuable end products for a range of industrial applications is the key focus. Although lectures and practical classes still play an important role as the course progresses, your learning experience is enhanced by placing greater reliance on self-directed study, written dissertations in research project work.
Teaching is provided by teaching fellows, assistant professors, associate professors and professors. Technical staff, dissertation for msc biotechnology, PhD students and post-doctoral researchers provide additional support in small group and practical classes. Modules are assessed using a variety of individual assessment types which are weighted to calculate your final mark for each module. You will be given a copy of our marking criteria when you start the course and will receive regular feedback from your lecturers and tutors.
The number of formal contact hours varies depending on the core and specialist modules you are studying.
As a guide, you will typically spend around 24 to 30 hours per module. You will work on your research project between June and September, either based at the University or via an industry placement. You would be supervised for 3 hours per week, on average. All candidates are considered on an individual basis and we accept a broad range of qualifications. The entrance requirements below apply to entry. If you need support to meet the required level, you may be able to attend a presessional English course.
Presessional courses teach you academic skills in addition to English language. Our Centre for English Language Education is accredited by the British Council for the teaching of English in the UK. If you successfully complete your presessional course to the required level, you can then progress to your degree course.
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, time: 10:00MSc Applied Biosciences and Biotechnology | Study | Imperial College London
Our MSc course in Biotechnology is about discovery, innovation and translation of knowledge to application of novel products. The emphasis of the course is about the impact of modern biotechnological tools and approaches to address today's global challenges, from food to therapeutics Nov 24, · The MSc Industrial Biotechnology will appeal to those with a primary industrial background as a further training opportunity and as a means of becoming involved in this important field, as well as being suitable for recent graduates and early-career professionals from Pharmaceutical Biotechnology MSc/PG Dip/PG Cert This course equips you for the rapidly expanding field of biopharmaceuticals, covering a broad range of topics relating to DNA and protein-based medicines In the third semester, the learning venue will depend on your dissertation topic and will be aimed at guided self-study
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