Course Objectives: |
To learn the general structure, molecular and genetic characteristics of a living organism, to understand the cell and its functions, to learn the metabolic reactions that occur in the cell, to understand the basic principles of heredity, to have knowledge about basic genetic and molecular genetic principles. |
Course Content: |
Biology Science, Birth of Molecular Biology, Biological Molecules, Enzymes, Cellular Organization, Transport and Stimulus Transmission in Cell Membrane, Cellular Energy and Metabolism, Cell Cycle and Division, Week Growth and Development, Aging Biology, Structure of Genetic Material, Proliferation and Protein Synthesis, Mutation and Repair, Control of Gene Expression, DNA Technology and Applications, Genome Organization, DNA Sequences and Chromosome, Basic Principles of Inheritance, Hereditary Metabolic Diseases, Molecular Biology of Cancer. |
Week |
Subject |
Related Preparation |
1) |
Introduction to the Cell, Cell Structure and Types (Prokaryotic and Eukaryotic Cells) |
PPT prepared for the lesson |
2) |
Structure and Function of Cell Membrane, Transport Mechanisms (Endocytosis, Exocytosis) |
PTT prepared for the lesson |
3) |
Microscope Training |
PPT prepared for the lesson |
4) |
Structure and Functions of Cell Organelles |
PPT prepared for the lesson |
5) |
Cell Skeleton (Centriole, Microtubules, Filaments, Cilia, Flagella) |
PPT prepared for the lesson |
6) |
Investigation of Cell Morphologies Preparation of Preparations |
PPT prepared for the lesson |
7) |
Midterm Exam |
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8) |
Nucleus Structure and Functions, Molecular Mechanisms of Nuclear Transport |
PPT prepared for the lesson |
9) |
Genetic Materials; DNA, From DNA to Chromosome; Packaging of DNA
DNA – RNA Structure, Function and Gene, Genetic Code |
PPT prepared for the lesson |
10) |
Replication, Transcription, Translation |
PPT prepared for the lesson |
11) |
Cell Cycle, Mitosis-Meiosis Division Mechanisms Controlling Cell Cycle |
PPT prepared for the lesson |
12) |
Genetic Concepts, Mendelian Inheritance-Non Mendelian Inheritance |
PPT prepared for the lesson |
13) |
Mutagens and Mutations DNA Damage and Repair Mechanisms |
PPT prepared for the lesson |
14) |
Nutrigenetic |
PPT prepared for the lesson |
15) |
Nutrigenetic |
PPT prepared for the lesson |
16) |
Final Exam |
PPT prepared for the lesson |
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Program Outcomes |
Level of Contribution |
1) |
PO 1.1) Sufficient knowledge in mathematics, science and computer engineering |
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2) |
PO 1.2) Ability to apply theoretical and applied knowledge in mathematics, science and computer engineering for modeling and solving engineering problems. |
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3) |
PO 2.1) Identifying complex engineering problems |
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4) |
PO 2.2) Defining complex engineering problems |
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5) |
PO 2.3) Formulating complex engineering problems |
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6) |
PO 2.4) Ability to solve complex engineering problems |
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7) |
PO 2.5) Ability to choose and apply appropriate analysis and modeling methods |
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8) |
PO 3.1) Ability to design a complex system, process, device or product to meet specific requirements under realistic constraints and conditions. |
5 |
9) |
PO 3.2) Ability to apply modern design methods under realistic constraints and conditions for a complex system, process, device or product |
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10) |
PO 4.1) Developing modern techniques and tools necessary for the analysis and solution of complex problems encountered in engineering applications |
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11) |
PO 4.2) Ability to select and use modern techniques and tools necessary for the analysis and solution of complex problems encountered in engineering applications |
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12) |
PO 4.3) Ability to use information technologies effectively. |
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13) |
PO 5.1) Examination of complex engineering problems or discipline-specific research topics, designing experiments |
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14) |
PO 5.2) Examination of complex engineering problems or discipline-specific research topics, experimentation |
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15) |
PO 5.3 ) Analysis of complex engineering problems or discipline-specific research topics, data collection |
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16) |
PO 5.4) Analyzing the results of complex engineering problems or discipline-specific research topics |
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17) |
PO 5.5) Examining and interpreting complex engineering problems or discipline-specific research topics |
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