| Course ID |
Course Name |
Units |
|
Bioc 710
|
Biochemistry and Molecular Biology Panel Discussions |
2 |
| The objective of this once-a-week course is to assist students in learning the techniques of
and formal scientific presentation, and to foster the spirit of scientific exchange.
This course includes a series of colloquia offered by program faculty, students and
occasional guest lectures, which covered the different field of interest to PhD students and
recent advances in biochemistry research.
|
|
Bioc 720
|
Mechanism of Biochemical Reactions |
2 |
| TThe object of this course is the study the mechanism of biochemical Reactions.
Topics covered include elementary reactions and mechanisms -Activation parameter (ΔG‡,ΔH‡, ΔS‡)- Rate of reaction and mechanisms- Methods of studying reaction mechanisms (radioisotopes, spectroscopy) - Types of reactions found in biological systems- General
acid-base catalysis- Nucleophilic and electrophilic catalysis- Metal ion catalysis- protein
transfere- Addition and elimination redox reaction- stereospecific of enzyme catalyzed
reaction- practical measurement of rates of fast reaction and analysis of kinetic data.
|
|
Bioc 721
|
Membrane Structures and Transport Processes |
2 |
| The object of this course is the study the structure and function of biological membranes.
Topics covered include: Molecular components of biological membranes- Interaction
between membrane components – membrane mediated processes- membrane transport-
membrane channels- membrane transporter- passive transport- active transport- ionophores
|
|
Bioc 722
|
Biophysics |
2 |
| The object of this course is the application of physics to study biological problems.
The topics covered will include the chemical binding- Energies, Forces and bonds-
Biological energy (consumption, respiration and photosynthesis)- Thermal conduction-
Exitable membranes- Nerve signals- Momery- Ionizing radiation.
|
|
Bioc 730
|
Cell Dynamics and Function |
2 |
| This course centres on the molecular basis of cell structure and functions.
The topics covered will include cell properties (reproduction, molecular organization,dynamics and integration)- The components, assembly, metabolism and evolution of
cellular structures-Interaction of cells with each other and with the environment.
|
|
Bioc 751
|
Molecular Biology of Cancer |
3 |
| This course aims to study cancer at the molecular and cellular level.
Topics include cell out of control (cancers)- Transformed cells related to cancer cells-
Environmental factors and the incidence of cancers- Genetically recessive mutation in
some tumors- oncogenes and tumor - Causing viruses- Retroviral- associated oncogenes.
|
|
Bioc 752
|
Biochemical Pharmacology |
2 |
| This course centers on the fundamentals of basic and clinical pharmacology.
The topics covered include pharmacological and biochemical basis of drug absorption,
distribution, biotransformation, toxicity and susceptibility- key principles of drug action-
cellular resistance to antibacterial and anticancer drugs- Drug-drug interaction
|
|
Bioc 760
|
Plant Biochemistry |
2 |
| The object of this course is the study of biochemistry unique to photosynthetic organisms.
Topics covered include conversion of light energy to chemical energy by photosystems-
carbon fixation- nitrogen fixation- cell walls- vacuoles- plant hormones- plant secondary
metabolites and their ecological and medicinal roles. Cell and tissue cultures.
|
|
Bioc 761
|
Recombinant DNA and Gene Cloning |
2 |
| This course centers on DNA structure, Manipulation and gene cloning and their
applications. Topics covered include structure of DNA- Reproducing DNA-Gene expression- plasmids
and phages- cutting and joining DNA
Hyperidization, probes and amplification using PCR - cloning genes- using cloned genes-
AIDS and gene delivery- cancer genes- Application of human genetics (Genetic testing,
gene therapy and finger printing).
|
|
Bioc 762
|
Molecular Basis of Human Diseases |
2 |
| This course is designed to study biochemical principles and concepts relevant to
understanding the bases of specific human diseases.
The topics covered will deal primary with defects in (1) signal transduction e.g. in cancer
and diabetes (2) protein folding and turnover e.g. in lysosomal storage or aging-related
diseases and (3) metabolism, e.g. diseases of amino acid metabolism, bleeding disorders,
and of the cardiovascular system.
|
|
Bioc 763
|
Neurochemistry |
3 |
| The object of this course is the study of the structure, function, organization and chemistry
of the nervous system. Topics covered include: The central nervous system (CNS)- The peripheral nervous system
(PNS)- function of the nervous system (sensory function, integrative functions, and motor
functions)- organization of nervous system- Neurotransmission- Action potentials- synaptic
transmission- neurotransmitter- nerve impulse processing and integrations.
|
|
Bioc 770
|
Biochemical Responses to Environmental Stress |
2 |
| The object of this course is the study the biochemistry under different types of
environmental stress. Topics covered include: environmental stress (pollution, heat shock, low temperature,
freezing, salinity and drought)- Biochemistry of microorganisms under low temperature,
freezing- Biochemistry of plant under drought, salinity and heat shock- Biochemistry of
human under the condition of heat chock, drinking salinity water and electromagnetic
radiation.
|
|
Bioc 780<
|
Bioinformatics and Proteins & Genes structures |
3 |
| The object of this course is the application of computing concepts and mathematical
modeling to study the biological information in the form of molecular sequences and
structures. Topics covered include: Math primer (probability, combinatorial, optimization, entropy)-
computational techniques for finding information in biological sequence, genome and
molecular databases- structure prediction (RNA, DNA, proteins)- molecular structure and
biochemical properties.
|
|
Bioc 796
|
Special Topics in Biochemistry |
2 |
| Recent advances in selected areas of biochemistry will be presented.
|
|
Bioc 797
|
Special Topics in Molecular Biology |
2 |
| Lecture dealing with specialized topics or recent advances in the field of molecular biology will be presented.
|