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Courses

Biology

Theoretical Part: Living organisms -cell compartments, organelles and functions -cellular processes, transport, membranes, signalling, cytoskeleton, cell motility -organization of chromosomes and genes, meiosis, mitosis and cell cycle -gene expressions, gene regulation -developmental biology, embryogenesis -introduction to Darwinian evolution and phylogenic trees.Practical Part: Microscopy parts
BIO 102

Genetics-I

Theoretical Part: This course will be concerned with the concepts of Mendelian genetics, genetic analysis, chromosome theory, as well as all the basic chromosomal phenomena. Finally, it will introduce the different genetics of bacteria and viruses. Practical Part: This practical course will be concerned with establishing the culture of different organisms and observing their genetic variance thus
BIO 203

Histology

Theoretical part Morphology of animal tissues -Morphology of plant tissues -Plant systems: support, circulatory, respiratory, nutrition, reproductive, sensations -Animal systems: skeletal, cardiovascular, respiratory, digestive, excretory, reproductive, nervous. Practical partHistological identification of tissues -Anatomy of the animal body -Paraffin blocks/ slide preparation -Monitoring body
BIO 204

Genetics-II

Chromosomal Organization Molecular Mechanism –Gene Mapping –Chromosomal Anomalies: Animal, Plant –Cytogenetic Techniques –Phylogenetics: Introduction, Molecular Characteristics, Trees.
BIO 205

Molecular Biology

Theoretical Part: Acquire a good basic grounding in the molecular structure, organization, and function of the genetic material in different organisms. Distinguish between different types of molecular markers. Critically appraise the different methods used in the molecular mapping. Study the applications of genetic analysis in different organisms. Provide a focus on eukaryotic gene structure
BIO 206

Microbiology

Theoretical Part: Introduction to microbial taxonomy, biodiversity, and evolution –prokaryotic/eukaryotic microorganisms ( Bacteria, Fungi & Actinomycetes)–microbial metabolism, growth, –contribution to nutrients cycles –microorganisms in agriculture, in health –disease initiation –antibiotics ––special biomolecular structures and uses -Microorganisms as Tools for Molecular Biotechnology.Practical
MICR 201

Microbial Physiology

Theoretical part Introduce the structure/function relationship between the microbial cell and its constituents. Explore the basics of microbial physiology and the major cycles for growth and energy production. Illustrate the use of microorganisms in producing beneficial goods and services and the role of microorganisms in recycling and in degrading harmful pollutants. The practical part provides
MICR 202

Biostatistics & Data Analysis

A course designed to prepare math, computer science and engineering majors for a background in abstraction, notation and critical thinking for the mathematics most directly related to computer science. Topics include logic, proof techniques, mathematical induction, recursion, recurrence relations, matrices, basic set theory, relations, functions, trees, and graph theory.
MATH 204

Discrete mathematics & Optimization

The aim of the course is intended to introduce students to those areas of applied mathematics that are most relevant for solving practical problems. A course in elementary calculus is the sole prerequisite. In this course, the students will know the basic definitions of Numerical analysis, methods of finding roots of nonlinear equations and nonlinear systems of equations. Followed by the
MATH 306

Numerical Analysis

The aim of the course is intended to introduce students to those areas of applied mathematics that are most relevant for solving practical problems. A course in elementary calculus is the sole prerequisite. In this course, the students will know the basic definitions of Numerical analysis, methods of finding roots of a nonlinear equation and nonlinear systems of equations. Followed by the
MATH 407