JRD Global EDU

      M.Sc Medical Biochemistry Education

      JRD Global EDU
      Online

      Rs 45,700
      You can also call the Study Centre
      91932... More

      Important information

      Typology Master
      Methodology Online
      Duration 2 Years
      Start Different dates available
      Online campus Yes
      • Master
      • Online
      • Duration:
        2 Years
      • Start:
        Different dates available
      • Online campus
      Description

      This programme aims to train you in cutting-edge laboratory research applying techniques in bionanotechnology, biophysics, computational biology, microscopy, molecular biology, structural biology and systems biology to a broad range of fields including cell biology, chromosome biology, drug discovery, epigenetics, host-pathogen interactions, membrane proteins, ion channels and transporters, and RNA biology.

      Facilities (1)
      Where and when
      Starts Location
      Different dates available
      Online
      Starts Different dates available
      Location
      Online

      To take into account

      · What are the objectives of this course?

      You will be admitted directly to a particular research area led by departmental members who will be appointed MSc by Research supervisors. Students who have been admitted to a particular research supervisor will not normally do laboratory rotations. You will be based in a research lab and undertake research on a subject agreed with your supervisor. There are no taught courses examined by written papers, but you will have access to a wide range of lecture courses at a taught master’s level and foundation or preliminary level, as appropriate. If you have changed fields, this will enable you to fill in gaps in your background knowledge. There is also a wide range of courses and workshops which you can attend to acquire skills that will be necessary for the prosecution and presentation of your research, as well as your professional development as a research scientist.

      · Who is it intended for?

      Any Professional with 2 Years of Continuous work experience Compulsory having Graduation

      · Requirements

      2 Passport Size Photos • Photo ID Proof • Address Proof • All Experience Certificates • All Education Mark sheet and Certificates • Resume

      · Qualification

      Any Professional with 2 Years of Continuous work experience Compulsory having Graduation

      · What marks this course apart?

      ONLINE EXAM & SELF LEARNING PROGRAM

      · What happens after requesting information?

      ONLINE APPLICATION DETAILS

      Questions & Answers

      Ask a question and other users will answer you

      What you'll learn on the course

      Biochemistry
      Medical
      Medical Training
      DNA recombination and repair
      Eukaryotic gene
      Bionanotechnology
      Molecular biochemistry
      Chemical Biology
      Morphogenesis
      Antiviral strategies
      MRNA
      Chromatid

      Teachers and trainers (1)

      madhu joshi
      madhu joshi
      phd

      Course programme

      Research areas for the MSc by Research in Biochemistry currently include:

      • molecular biochemistry and chemical biology
      • structural biology of cell surface and nuclear signal transduction processes, cell adhesion, cell cycle, membrane proteins, receptors and ion channels, drug design, protein folding and dynamics
      • modelling and simulation of biological membrane systems
      • bionanotechnology and its application to cancer
      • targeting viral morphogenesis in antiviral strategies
      • integrative systems biology (dynamics of molecular regulatory networks, multidimensional optical proteomics)
      • bacterial and parasite respiratory proteins
      • bacterial cell biology, protein transport
      • control of eukaryotic gene expression
      • kinase signalling to gene induction
      • mRNA localisation in drosophila
      • epigenetic control of chromatin and gene expression
      • developmental epigenetics
      • DNA recombination and repair
      • bacterial chromosome dynamics
      • sister chromatid cohesion
      • genetic modelling of human disease
      • genetics of nematode immunity and development
      • cell biology of innate immunity in drosophila
      • genetic defects of mitochondrial energy metabolism
      • cell proliferation and cell fate determination during C. elegans development.