Drug Design And Discovery in University of Salford, UK

Drug Design And Discovery in University of Salford

It is an exciting time for chemists to be involved in all aspects of biomedical research. 

This course is training a new generation of bioscientists to meet challenges at the interface between biology and chemistry, and to apply pharmaceutical and analytical knowledge directly to improve quality of life. Chemistry is inherently well positioned to have a major impact on drug discovery, since other disciplines cannot create novel small molecules. This course offers classical natural products-based drug discovery, involving extraction, assay-based functional fractionation, isolation, characterisation, and target validation. However, increasingly, this approach is complemented by molecular target-based drug discovery and molecular modelling. Discovery of new generation antimicrobials against multidrug resistant strains of bacteria is advancing by extensive use of those modern tools.

The syllabus is designed to develop the analytical techniques and problem-solving skills relevant to postgraduate-level employment in both the pharmaceutical sector but also to provide access to transferable skills relevant to a great variety of professional careers.

Following completion of the Human Genome Project, the pharmaceutical industry is also preparing for a revolution in cancer and inherited disorder therapies. This course is training a new generation of bioscientists to meet challenges at the interface between biology and chemistry, and to apply pharmaceutical and analytical knowledge directly to improve quality of life.

Furthermore nanotechnology is fulfilling medical science’s need for more precise treatments that are less invasive, less costly and less complicated to administer than traditional methods. This translates into better patient outcomes, lower healthcare costs and wider access to healthcare services in under-resourced parts of the world.

You will:

  • Learn to meet challenges at the interface between biology and chemistry and to apply pharmaceutical and analytical knowledge directly to improve quality of life
  • Learn where chemistry, nanotechnology and genome technology is pushing the boundaries of biomedical research
  • Develop the tools to enhance your employability including analytical techniques and problem-solving skills
  • Acquire strong training in drug synthesis and analytical methods, natural product chemistry and molecular modelling

Know more about Studying in UK

Tuition Fees in UK (1st Year Average) MS: £17276 | MBA: £17276 | BE/Btech: £16632 | BBA: £15130 | BSc: £16632 | MFin: £19000 | MA: £15560 | MIM: £18241 | MEM: £16950 | MArch: £14271 | BHM: £12662 | MIS: £15344 | MEng: £12876 | MBBS: £28865| MPharm: £15452
Average Accomodation & Food Costs in UK £850 to £1,050 a month
Entrance Exams in UK TOEFL: 88 | IELTS: 6.5 | PTE: 59 | GMAT: 590
Work and Study in UK Permitted for 20 hours/week with a valid study permit.
Post Study Work Permit in UK 2 Year after graduation depending on the course.
Cost of Student Visa in UK £348
Student Visa in UK Your nationality, duration of your stay and purpose of your stay are the three essential factors for UK visa. For Non-EU students UK visa is mandatory.
Intakes in UK There are mainly two intakes in UK: January/February & September/October.
Top Job Sectors in UK IT Engineering, Product Design, Mobile Development, Designers, Logistics, etc.
Economy in UK Growth Rate: 1.3% (2018) 1.4% (2019) 1.4% (2020e), 6th Largest Economy in the World by Nominal
Duration :

1 Years

Intake

September

Level

Postgraduate

Tuition & fees

£ 15,210 Per Year

IELTS

6.5

TOFL

0

PTE

0

University Course Details URL

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