Türkçe
Graduate School Of Natural And Applied Sciences Moleküler Biyoloji ve Genetik Doktora

Qualification Awarded

Upon successful completion of the program and when the program qualifications are met, a PhD degree in Molecular Biology and Genetics is awarded.

Specific Admission Requirements

Department of Molecular Biology and Genetics University, Faculty of Science, Molecular Biology and Genetics, Biology, Chemistry, Physics departments, Faculty of Agriculture Plant Protection, Agricultural Biotechnology departments, Engineering Faculties Bioengineering and Genetics Departments and Veterinary Faculty, Faculty of Medicine are required to graduate. The ALES and YDS score requirements are determined based on the decisions of the Graduate School of Natural and Applied Sciences.

Qualification Requirements

The doctoral program is eight semesters, starting from the semester in which the courses related to the program in which the program is registered, regardless of whether or not they have registered for each semester. The maximum completion period is twelve semesters for those admitted with a master's degree; it is ten semesters and the maximum completion period is fourteen semesters for those admitted with a bachelor's degree.The maximum duration to successfully complete the credit courses required for the Ph.D. program is four semesters for those admitted with a master's degree with thesis and six semesters for those admitted with a bachelor's degree. Students who fail to successfully complete their credit courses or fail to achieve a GPA of at least 3.00 are dismissed from the Institute.Students who successfully complete the credit courses, who pass the proficiency exam and whose thesis proposal is accepted but cannot complete the thesis work until the end of the maximum period are dismissed from the Institute.Students who have applied to the doctoral program with a bachelor's degree, who cannot complete their credit courses and / or thesis work within their maximum period, who have not succeeded in their doctorate thesis, are granted a non-thesis master's degree upon their request provided that they have fulfilled the credit load required for the non-thesis master's degree, projects and other requirements.

Recognition of Prior Learning

Transfer: Students who have completed at least one semester in graduate programs at another EABD / EASD or another university within the relevant institute may be admitted through transfer to the graduate programs of the University. In order to transfer, the student must meet the requirements of the most recently announced student admission and success requirements of the relevant program and must have successfully completed all the courses he / she has attended in the program. Applications for horizontal transfers are made on the dates specified in the academic calendar. The acceptance and adjustment of the student to the program is determined by the EAB with the proposal of EABDB / EASDB. The transition between the master's program with and without thesis can be made by the student's application, EABDB / EASDB proposal and EYK decision in the third semester at the latest. The conditions and quotas regarding the transition between master's programs with and without thesis are determined by the Senate with the decision of the relevant EABDB / EASDB proposal, ANNEX. // Course submission: For graduate courses that students have taken and succeeded before, students are required to be exempted from one or more courses as a result of course submission and exemption exams, and consequently the application of the student in the course selection period, the relevant EABDB / EASDB proposal and EYK decision is determined by. Students who have taken courses from another university can be counted by the student's application, the relevant EABDB / EASDB proposal and the EAB decision. The details of the institution from which these courses are taken are stated and the transcript is written as it is and the success grade is entered.

History

Department of Molecular Biology and Genetics has started to accept students in 2018-2019 Spring semester.

Profile of the Programme

Molecular Biology and Genetics is an scientific field, developed as a result of rapid advances in the field of microbiology, molecular biology, biochemistry, cell metabolism and is applied to living systems with biological techniques and to the solution of problems encountered in these areas. Nowadays, this program is becoming more and more important including the developments in biology, molecular biology, microbiology, biochemistry, cell metabolism and genetics. Biological techniques and engineering principles are applied to living systems and solutions to problems encountered in these fields. It is aimed to create the necessary infrastructure to follow the developments in all these areas and to train qualified academicians and researchers.

Program Outcomes

1- Ability to use sufficient background in science, bioengineering and related fields and theoretical and practical knowledge in these fields for molecular biology and genetic solutions
2- The ability to identify, formulate and solve the problems that will be encountered in the field, and to select and apply appropriate analytical methods and techniques for this purpose.
3- Analyze a biological system, components of a system or process
4- To have access to information, to be able to do resource research and to use the databases and other information sources
5- Ability to work effectively in both individual and created teams, self-confidence in taking responsibility
6- To be able to follow the developments in science and technology
7- Consciousness of responsibility and sharing
8- Awareness of the results of project execution, biotechnological and biosafety practices
9- To be aware of the issues of entrepreneurship and innovation and to have knowledge about the problems of the era
10- To be aware of the effects of biological applications on universal and social dimensions

Exam Regulations & Assesment & Grading

Doctoral program consists of a minimum of 21 credits for students admitted with a master's degree with thesis and a minimum of 240 ECTS credits including at least seven courses, seminars, proficiency exam, thesis proposal and thesis study, provided that the academic year is not less than 60 ECTS. It occurs. It consists of at least 300 ECTS credits including 14 courses with 42 credits, seminar, proficiency exam, thesis proposal and thesis study for students admitted with undergraduate degree.The purpose of the proficiency exam is to test whether the student has in-depth knowledge of basic and doctoral studies. In order to take the doctoral proficiency exam, he / she must have successfully completed the required number of courses and seminars and has achieved at least 3.00 GPA.Exams consist of midterm, final exam and make-up exams. In order to take the final exam; the student must have attended at least 70% of the theoretical courses and at least 80% of the laboratory and applications. Exams can be performed as written, oral, written-applied and oral-applied. At least one midterm exam is given for each course in the related semester. The contribution rates of the midterm and final exams to the success grade are determined by the IABC at the beginning of each semester in accordance with the recommendation of the faculty member or the faculty members whose qualifications are determined by the Senate and the opinion of EABDB / EASDB. In order to be successful in a course, the final grade must be at least CC for master's degree and at least CB for doctorate.

Graduation Requirements

Students who have successfully completed the credit courses, who have been successful in the proficiency exam and who have completed the thesis work by submitting the thesis proposal until the end of the maximum period can be graduated from the doctoral program.

Occupational Profiles of Graduates

Graduates can work in public departments: in Research institutes, in R&D laboratories, in Genetic Diagnostic Centers, in Hospital laboratories, at Marine Sciences Research Institutes, at Turkish Standards Institute, at Ministry of Health, Ministry of Food, at Agriculture and Livestock, at the Scientific and Technological Research Council of Turkey (TUBITAK), at the Customs Control Centers, in the Experimental Animal Research Laboratories. Graduates can work in the private sector: at pharmaceutical, medical and biotechnology companies, at Genetic Diagnosis Centers and in food control laboratories.

Access to Further Studies

Scientists with PhD degrees can participate in project-based postdoctoral research.

Mode of Study

Ph.D.

Programme Director

Prof.Dr. Ömür Baysal

ECTS Coordinator

Course Structure Diagram with Credits

1. Year - 1. Term
Course Unit Code Course Unit Title Course Type Theory Practice ECTS Print
FBE5090 Scientific Research Techniques and Publishing Ethics Required 2 0 2
FBE5500 Developing and Managing Projects Elective 3 0 6
MBG5501 Current Topics in Molecular Biology and Genetics Elective 3 0 4
MBG5503 Purification Techniques of Biomolecules Elective 3 0 6
MBG5505 Biostatistics Applications Elective 3 0 6
MBG5507 Cell Signal Transduction Elective 3 0 6
MBG5509 Molecular Endocrinology Elective 3 0 6
MBG5511 Neurobiology Elective 3 0 6
MBG5513 Advanced Animal Tissue Culture Elective 3 0 6
MBG5515 Molecular and Cellular Basis of Metastasis Elective 3 0 6
MBG5517 Molecular Toxicology Elective 3 0 6
MBG5519 Protein Trafficking Elective 3 0 6
MBG5521 DNA Technology Approaches in Plants Elective 3 0 6
MBG5523 Plant Molecular Genetics Elective 3 0 6
MBG5525 Recombinant Protein Production and Isolation in Plants Elective 3 0 6
MBG5527 Plant Diseases and Host-Pathogen Relations Elective 3 0 6
MBG5529 Microbial Genomics Elective 3 0 6
MBG5531 Microbial Culture and Counting Methods Elective 3 0 6
MBG5533 Cell Death Pathways and Mechanisms Elective 3 0 6
MBG5535 Molecular Evolution and Phylogenetics Elective 3 0 6
MBG5537 Ecotoxicology Elective 3 0 6
MBG5539 Population Biology and Genetics Elective 3 0 6
MBG5541 Pest Management and Molecular Genetics of Insecticide Resistance Elective 3 0 6
MBG5543 Biomolecular Interactions Elective 3 0 6
MBG5545 Nanotechnology and Biomedical Applications Elective 3 0 6
MBG5547 Biomaterial - Tissue Interactions Elective 3 0 6
MBG5549 Free Radicals and Antioxidants Elective 3 0 6
MBG5551 Secondary Metabolites in Seed Plants Elective 3 0 6
MBG6001 Research Methods in Molecular Biology Required 3 0 6
MBG6701 Specialization Field Course Required 4 0 6
       
1. Year - 2. Term
Course Unit Code Course Unit Title Course Type Theory Practice ECTS Print
MBG5502 Molecular Biology Techniques Elective 3 0 6
MBG5504 Biotechnology Elective 3 0 6
MBG5506 Eukaryotic Gene Expression Elective 3 0 6
MBG5508 Genetic Engineering Elective 3 0 6
MBG5510 Protein Visualization Techniques Elective 3 0 6
MBG5512 Neurodegeneration Mechanisms Elective 3 0 6
MBG5514 Cancer Genetics and Biochemistry Elective 3 0 6
MBG5516 Molecular Cytogenetics Elective 3 0 6
MBG5518 Advanced Plant Cell Cultures Elective 3 0 6
MBG5520 Plant Stem Cell and Synthetic Seed Technology Elective 3 0 6
MBG5522 Genetic Transformation in Plants Elective 3 0 6
MBG5524 Signal Transduction Paths in Plants Elective 3 0 6
MBG5526 Bacterial Genetics at Molecular Level Elective 3 0 6
MBG5528 Bioinformatics Sequence and Genome Analysis Elective 3 0 6
MBG5530 Prokaryotic Gene Regulation Elective 3 0 6
MBG5532 Eukaryotic Cell Cycle and Analysis Elective 3 0 6
MBG5534 Molecular Ecology Elective 3 0 6
MBG5536 Molecular Systematics Elective 3 0 6
MBG5538 Insect Molecular Genetics Elective 3 0 6
MBG5540 Conservation Biology and Genetics Elective 3 0 6
MBG5542 Marker Systems and Analysis Methods Elective 3 0 6
MBG5544 Protein Chromatography Elective 3 0 6
MBG5546 Biopolymers Elective 3 0 6
MBG5548 Vitamins Elective 3 0 6
MBG5550 Biological Elements Elective 3 0 6
MBG6002 Advanced Laboratory Techniques in Molecular Biology Required 3 0 6
MBG6090 SEMINAR Required 0 2 6
MBG6702 Special Studies Required 4 0 6
       
2. Year - 1. Term
Course Unit Code Course Unit Title Course Type Theory Practice ECTS Print
MBG6703 Specialization Field Course Required 4 0 6
MBG6810 Qualifying Exam Required 0 0 24
       
2. Year - 2. Term
Course Unit Code Course Unit Title Course Type Theory Practice ECTS Print
MBG6704 Specialization Field Course Required 4 0 6
MBG6811 Thesis Proposal Required 0 0 24
       
3. Year - 1. Term
Course Unit Code Course Unit Title Course Type Theory Practice ECTS Print
MBG6705 Specialization Field Course Required 0 0 6
MBG6812 Ph.D. Thesis (1.TİK) Required 0 0 24
       
3. Year - 2. Term
Course Unit Code Course Unit Title Course Type Theory Practice ECTS Print
MBG6706 Specialization Field Course Required 4 0 6
MBG6813 Ph.D. Thesis (2.TİK) Required 0 0 24
       
4. Year - 1. Term
Course Unit Code Course Unit Title Course Type Theory Practice ECTS Print
MBG6707 Specialization Field Course Required 4 0 6
MBG6814 Ph.D. Thesis (3.TİK) Required 0 0 24
       
4. Year - 2. Term
Course Unit Code Course Unit Title Course Type Theory Practice ECTS Print
MBG6708 Specialization Field Course Required 0 0 6
MBG6815 Ph.D. Thesis (Thesis Defence) Required 0 0 24
       
 

Evaluation Questionnaires

Course & Program Outcomes Matrix

0 - Etkisi Yok, 1 - En Düşük, 2 - Düşük, 3 - Orta, 4 - Yüksek, 5 - En Yüksek

1. Year - 1. Term
Ders AdıPy1Py2Py3Py4Py5Py6Py7Py8Py9Py10
Scientific Research Techniques and Publishing Ethics          
Developing and Managing Projects           
Current Topics in Molecular Biology and Genetics           
Purification Techniques of Biomolecules          
Biostatistics Applications           
Cell Signal Transduction           
Molecular Endocrinology           
Neurobiology           
Advanced Animal Tissue Culture           
Molecular and Cellular Basis of Metastasis           
Molecular Toxicology           
Protein Trafficking           
DNA Technology Approaches in Plants           
Plant Molecular Genetics           
Recombinant Protein Production and Isolation in Plants           
Plant Diseases and Host-Pathogen Relations           
Microbial Genomics           
Microbial Culture and Counting Methods           
Cell Death Pathways and Mechanisms           
Molecular Evolution and Phylogenetics           
Ecotoxicology           
Population Biology and Genetics           
Pest Management and Molecular Genetics of Insecticide Resistance           
Biomolecular Interactions           
Nanotechnology and Biomedical Applications           
Biomaterial - Tissue Interactions           
Free Radicals and Antioxidants           
Secondary Metabolites in Seed Plants           
Research Methods in Molecular Biology          
Specialization Field Course          
           
1. Year - 2. Term
Ders AdıPy1Py2Py3Py4Py5Py6Py7Py8Py9Py10
Molecular Biology Techniques          
Biotechnology           
Eukaryotic Gene Expression           
Genetic Engineering           
Protein Visualization Techniques           
Neurodegeneration Mechanisms           
Cancer Genetics and Biochemistry           
Molecular Cytogenetics           
Advanced Plant Cell Cultures           
Plant Stem Cell and Synthetic Seed Technology           
Genetic Transformation in Plants           
Signal Transduction Paths in Plants           
Bacterial Genetics at Molecular Level           
Bioinformatics Sequence and Genome Analysis           
Prokaryotic Gene Regulation           
Eukaryotic Cell Cycle and Analysis           
Molecular Ecology           
Molecular Systematics           
Insect Molecular Genetics           
Conservation Biology and Genetics           
Marker Systems and Analysis Methods           
Protein Chromatography           
Biopolymers           
Vitamins           
Biological Elements           
Advanced Laboratory Techniques in Molecular Biology          
SEMINAR           
Special Studies          
           
2. Year - 1. Term
Ders AdıPy1Py2Py3Py4Py5Py6Py7Py8Py9Py10
Specialization Field Course          
Qualifying Exam          
           
2. Year - 2. Term
Ders AdıPy1Py2Py3Py4Py5Py6Py7Py8Py9Py10
Specialization Field Course          
Thesis Proposal          
           
3. Year - 1. Term
Ders AdıPy1Py2Py3Py4Py5Py6Py7Py8Py9Py10
Specialization Field Course          
Ph.D. Thesis (1.TİK)          
           
3. Year - 2. Term
Ders AdıPy1Py2Py3Py4Py5Py6Py7Py8Py9Py10
Specialization Field Course          
Ph.D. Thesis (2.TİK)          
           
4. Year - 1. Term
Ders AdıPy1Py2Py3Py4Py5Py6Py7Py8Py9Py10
Specialization Field Course          
Ph.D. Thesis (3.TİK)          
           
4. Year - 2. Term
Ders AdıPy1Py2Py3Py4Py5Py6Py7Py8Py9Py10
Specialization Field Course          
Ph.D. Thesis (Thesis Defence)          
           
 

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