Week |
Subject |
Related Preparation |
1) |
Drosophila melanogaster Life Cycle, Examination under Dissection Microscope, Differentiation of Male and Female Individuals, stunning, medium preparation |
Pre-prepared presentation and test sheet |
2) |
Virgin female extraction, problems with Mitosis and Meiosis, (Virgin female extraction continues throughout the week) |
Pre-prepared presentation and test sheet |
3) |
Crossover, Monohybrid crossover problems |
Pre-prepared presentation and test sheet |
4) |
Separation of parents, Dihybrid cross problems |
Pre-prepared presentation and test sheet |
5) |
F1 Male and female counting, obtaining virgin female from F1 (continues throughout the week) |
Pre-prepared presentation and test sheet |
6) |
F2 crossover, chi-square and equivalence problems |
Pre-prepared presentation and test sheet |
7) |
Separation of parents, chi-square and equivalence problems |
Pre-prepared presentation and test sheet |
8) |
Midterm |
|
9) |
Counting of F2 offspring, Karyotype analysis |
Pre-prepared presentation and test sheet |
10) |
Blood groups and analysis, related problems |
Pre-prepared presentation and test sheet |
11) |
Examination of the Barr body, related problems |
Pre-prepared presentation and test sheet |
12) |
Examination of giant chromosomes |
Pre-prepared presentation and test sheet |
13) |
Caenorhabditis elegans life cycle, Stereomicroscope examination, differentiation of eggs, larvae and adults, passage |
Pre-prepared presentation and test sheet |
14) |
Synchronizing Caenorhabditis elegans populations, egg retrieval |
Pre-prepared presentation and test sheet |
15) |
Caenorhabditis elegans individual census |
Pre-prepared presentation and test sheet |
16) |
finals week |
|
17) |
finals week |
|
|
Program Outcomes |
Level of Contribution |
1) |
Having knowledge and understanding of Molecular Biology and Genetics subjects, established on competencies gained in previous education and supported by using course books containing latest information, application tools and other scientific literature. |
2 |
2) |
Students can integrate knowledge and skills from molecular biology and genetics courses and can acquire further knowledge according to their own interests. |
2 |
3) |
Students acquire practical skills in fundamental molecular biology and genetics techniques. |
2 |
4) |
Ability of proposing solutions in unexpected, complicated situations on applications of Molecular Biology and Genetics by claiming responsibility individually or as a part of a team. |
3 |
5) |
Competency in planning academic studies on Molecular Biology and Genetics and carrying out these studies individually or collectively. |
3 |
6) |
Students can develop ability to analyse and interpret experimental data obtained in a laboratory setting statistically. |
1 |
7) |
Sufficient foreign language knowledge for communication between colleagues and following literature on Molecular Biology and Genetics. |
2 |
8) |
Students can use computational technologies to analyse scientific data and for information retrieval. |
1 |
9) |
Being aware of the necessity of lifelong education, reaching information, following the advances in science and technology and constant struggle of renewing oneself. |
1 |
10) |
Evaluating natural and social events with an environmental point of view and ability of informing and leading the public opinion |
2 |
11) |
Students acquire professional knowledge and skills to fulfil requirements of their future employers. |
3 |
12) |
Having proper social, ethical and scientific values and the will to protect these values on studies about collection, evaluation, contemplation, publication and application of data regarding Molecular Biology and Genetics. |
1 |
13) |
Students can understand and evaluate advantages and limitations of technological platforms in life sciences including genomics, genetic engineering and biotechnology. |
1 |
14) |
Students would have consciousness on subjects such as the quality management, worker welfare and safety. |
2 |