Week |
Subject |
Related Preparation |
1) |
Introduction to RNA World |
Atkins, J. F., Gesteland, R. F., & Cech, T. (Eds.). (2011). RNA worlds: from life's origins to diversity in gene regulation. |
2) |
The Discovery of miRNAs as Gene Regulators |
Atkins, J. F., Gesteland, R. F., & Cech, T. (Eds.). (2011). RNA worlds: from life's origins to diversity in gene regulation. |
3) |
The Other Roles of miRNAs |
Atkins, J. F., Gesteland, R. F., & Cech, T. (Eds.). (2011). RNA worlds: from life's origins to diversity in gene regulation. |
4) |
The Discovery of siRNAs as Therapeutic Agent |
Atkins, J. F., Gesteland, R. F., & Cech, T. (Eds.). (2011). RNA worlds: from life's origins to diversity in gene regulation. |
5) |
Circular RNAs and Competing Endogenous RNA Hypothesis |
Atkins, J. F., Gesteland, R. F., & Cech, T. (Eds.). (2011). RNA worlds: from life's origins to diversity in gene regulation. |
6) |
Role of lncRNAs in X Chromosome Inactivation |
Atkins, J. F., Gesteland, R. F., & Cech, T. (Eds.). (2011). RNA worlds: from life's origins to diversity in gene regulation. |
7) |
Role of lncRNAs in X Genomic Imprinting |
Atkins, J. F., Gesteland, R. F., & Cech, T. (Eds.). (2011). RNA worlds: from life's origins to diversity in gene regulation. |
8) |
Midterm exam |
|
9) |
Project presentation related to miRNA, siRNA and lncRNA |
Atkins, J. F., Gesteland, R. F., & Cech, T. (Eds.). (2011). RNA worlds: from life's origins to diversity in gene regulation. |
10) |
Project presentation related to miRNA, siRNA and lncRNA 2 |
Atkins, J. F., Gesteland, R. F., & Cech, T. (Eds.). (2011). RNA worlds: from life's origins to diversity in gene regulation. |
11) |
Catalytic Functions of RNA and RNA-World Hypothesis: Ribozymes |
Atkins, J. F., Gesteland, R. F., & Cech, T. (Eds.). (2011). RNA worlds: from life's origins to diversity in gene regulation. |
12) |
The Relationships between RNA-Ribozom |
Atkins, J. F., Gesteland, R. F., & Cech, T. (Eds.). (2011). RNA worlds: from life's origins to diversity in gene regulation. |
13) |
Chemical Modifications of Mature RNA Molecules |
Atkins, J. F., Gesteland, R. F., & Cech, T. (Eds.). (2011). RNA worlds: from life's origins to diversity in gene regulation. |
14) |
RNA-guided Immune System to Treat Human Disease |
Atkins, J. F., Gesteland, R. F., & Cech, T. (Eds.). (2011). RNA worlds: from life's origins to diversity in gene regulation. |
15) |
Semester subject review |
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16) |
Final exam |
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Program Outcomes |
Level of Contribution |
1) |
PÇ 1.1) To have sufficient knowledge required by the field of molecular biology and genetics |
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2) |
PO 1.2) To be able to use the theoretical knowledge required by the field of molecular biology and genetics |
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3) |
PO 1.3) To be able to apply the skills required by the field of molecular biology and genetics in the field |
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4) |
PO 2.1) To be able to identify, define and interpret the problems in the field of Molecular Biology and Genetics |
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5) |
PO 2.2) To be able to select appropriate analysis and modeling methods to solve problems in the field of Molecular Biology and Genetics |
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6) |
PO 2.3) To be able to apply appropriate analysis and modeling methods to solve problems in the field of Molecular Biology and Genetics |
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7) |
PO 3.1) To be able to understand and interpret any process, event, phenomenon, equipment or product |
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8) |
PO 3.2) To be able to solve the problems encountered with appropriate and contemporary methods |
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9) |
PO 4.) To be able to show interest in different disciplines outside the field for personal and professional development |
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10) |
PO 5.1) To be able to select and use modern tools necessary for Molecular Biology and Genetics applications |
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11) |
PO 5.2)To be able to use information technologies effectively for Molecular Biology and Genetics applications |
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12) |
PO 6) To be able to design, experiment, field study, data collection, data analysis, reporting, archiving, text solving and/or interpretation in the field of Molecular Biology and Genetics |
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13) |
PO 7) To be able to take responsibility as an individual and a team member, to produce solutions and to communicate well in unexpected complex situations that may be encountered in applications in the field of Molecular Biology and Genetics. |
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14) |
PO 8.1) To be able to communicate effectively both orally and in writing in Turkish in order to plan academic studies in the field of Molecular Biology and Genetics and to carry out them independently or jointly with stakeholders |
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15) |
PO 8.2) To be able to communicate orally and in writing in at least one foreign language in order to plan academic studies in the field of Molecular Biology and Genetics and to conduct them independently or jointly with stakeholders |
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16) |
PO 9) To have the awareness of the necessity of lifelong learning, to have the ability to access information, to follow developments in science and technology and to have the ability to constantly renew oneself. |
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17) |
PO 10) To have social, scientific, ethical values and awareness of protecting these values in the stages of collecting, interpreting, announcing and applying data related to the field of Molecular Biology and Genetics. |
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18) |
PO 11) To be able to comprehend the universal and social effects of Molecular Biology and Genetics applications (environmental problems, economy, sustainability, etc.) and legal aspects |
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