Program namemaster degree in Applied Biochemistry

– TD3: Acquired immune deficits: AIDS

• TD4: Cancer and immunity
• TD 5: Immunotherapies
• Others (Personal work)
  -Bibliographic research.
  -Preparations for the TD series.
  Semester : 2
  EU title: Fundamental
  Title of the subject: Molecular and cellular biology II
  Teaching objectives (Describe what the student is supposed to have acquired as skills after success at this
  material – maximum 3 lines).
  Know the molecular and cellular bases necessary to exploit the experimental results of the interaction of
  molecules with ligands in biological systems
  Recommended previous knowledge (brief description of the knowledge required to be able to follow this
  teaching – Maximum 2 lines).Biochemistry, genetics
  Content of the subject (it is mandatory to indicate the detailed content of the Program and personal work)
  Program
• Courses

1. General information on neurotransmission (neurons, classes of neurotransmitters, nerve impulses, synapses)
   Signal transduction by neurotransmitters

• Pathway of transduction by metabotropic receptors
• Transduction pathway by ionotropic receptors
  Neurodegenerative diseases (Alzheimer’s, Parkinson’s, multiple sclerosis and epilepsy…)
  Signal transduction by peptide hormones
• Signaling by G protein-coupled receptors,
• Signaling by receptors coupled to enzymes.

1. Mechanism of regulation of gene expression
   -Levels of regulation and mechanism
2. Signal transduction by free radicals

• Reactive oxygen and nitrogen species
• Training
• Physiological and pathological role
• Free radicals as a second messenger
• Signal transduction by free radicals
• TD
• TD1: Excitatory and inhibitory synapses.
• TD2: Nerve impulses and neurotransmitters
• TD3: Clostridial toxins and neuroexocytosis
• TD4: Radical chemistry (Lewis Structure)
• TD5: Case study of in vivo and in vitro free radical formation system
• TD6: Oxidant-antioxidant reactions
• Others (Personal work)
  -Preparation of TD series
  -Bibliographic research.
  Semester : 2
  EU title: Fundamental
  Title of the subject: Biochemistry and therapeutic chemistry
  Teaching objectives (Describe what the student is supposed to have acquired as skills after success at this
  material – maximum 3 lines).
  Analysis of organic functions; drug design from the molecular point of view
  Recommended previous knowledge (brief description of the knowledge required to be able to follow this
  teaching – Maximum 2 lines).
  Therapeutic chemistry, biochemistry
  Content of the subject (it is mandatory to indicate the detailed content of the Program and personal work)
  Program
• Courses

1. Nutrition and metabolism
2. Bio-organic chemistry
3. Phytochemistry and the study of biomolecules
4. Combinatorial synthesis
5. Use of molecules in therapy

• TP
• TP1: Preparation of synthetic and biological molecules: Example aspirin …, etc
• TP2: Preparation of solutions such as iodine alcohol…., etc
• TP3: Use of molecules in therapy
• Others (Personal work)
  -Bibliographic research.
  -Preparation of construction reports.
  Semester : 2
  EU title: Methodology
  Title of the material: Modern molecular techniques
  Teaching objectives (Describe what the student is supposed to have acquired as skills after success at this
  material – maximum 3 lines).
  Know the molecular biology techniques and immunological methods used in laboratories
  of analyzes.
  Recommended previous knowledge (brief description of the knowledge required to be able to follow this
  teaching – Maximum 2 lines).Biochemistry, biophysics
  Content of the subject (it is mandatory to indicate the detailed content of the Program and personal work)
  Program
• Courses

1. Circular dichroism
2. Techniques for protein-protein interaction studies
3. Techniques for studying DNA-Protein interactions