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Course Information

BIO531 - İleri Prokaryotik Çeşitlilik

Rapor Tarihi: 22.12.2025 19:28

Course Information

Course Title	Code	Language	Type	Semester	L+U Hour	Credits	ECTS
Advanced Prokaryotic Diversity	BIO531	Turkish	Compulsory		4 + 0	4.0	8.0

Prerequisite Courses
Course Level	Graduate
Mode of delivery	Face to face
Course Coordinator	Prof. Dr. Başaran DÜLGER
Instructor(s)
Goals	Prokaryotic microorganisms and their determination of biologic, ecologic, metabolic and phylogenetic difference from the other living organisms
Course Content	Cell chemistry, Chemical microbiology, Cell Biology (Different Cell Structures: prokaryote and Eukaryote Organims), Bacterial Phylogeny, Metabolic diversity in Prokaryote, Arkeal phylogeny, Habitat diversity in prokaryote, Genetic diversity in prokaryote, Enzymatic diversity in prokaryote, Physologic diversity in prokaryote,Biotechnologic Usage of Prokaryote

Learning Outcomes

#	Öğrenme Kazanımı
1	Concepts and explanations on Prokaryotic Diversity are learned

Lesson Plan (Weekly Topics)

Week	Topics/Applications	Method
1. Week	Cell chemistry
2. Week	Chemical microbiology
3. Week	Cell Biology (Different Cell Structures: prokaryote and Eukaryote Organims) -1
4. Week	Cell Biology (Different Cell Structures: prokaryote and Eukaryote Organims) -2
5. Week	Bacterial Phylogeny
6. Week	Metabolic diversity in Prokaryote
7. Week	Arkeal phylogeny
8. Week	MIDTERM	Practice
9. Week	Habitat diversity in prokaryote	Interview, Presentation (Preparation)
10. Week	Genetic diversity in prokaryote -1
11. Week	Genetic diversity in prokaryote -2
12. Week	Enzymatic diversity in prokaryote -1
13. Week	Enzymatic diversity in prokaryote -2
14. Week	Physologic diversity in prokaryote

*Midterm and final exam dates are not specified in the 14-week course operation plan. Midterm and final exam dates are held on the dates specified in the academic calendar with the decision of the University Senate.

The Matrix for Course & Program Learning Outcomes

No	Program Requirements	Level of Contribution
No	Program Requirements	1	2	3	4	5
1	Improve the scientific knowledge in the field of Biology to a more advanced level. Use the advenced knowledge to innovate, interpret the results, to apply the results and to design unique projects.					✔
2	Gain the ability to identify scientific questions, compare, analyze and solve the problems independently.					✔
3	Gain the skills of using the modern laboratory techniques and analysis methods in the field of biology.					✔
4	Gain the ability to get the information by doing research, to evaluate, interpret and apply it.					✔
6	Gain the ability to design experimental studies, do the applications and analyse the complicated results using advanced skills, like critical thinking, problem solving and deciding.				✔
7	Use the scientific knowledge and apply the ability of problem solving, evaluate and analyse advanced concepts in interdiciplinary fields.				✔
7	Use the scientific knowledge and apply the ability of problem solving, evaluate and analyse advanced concepts in interdiciplinary fields.			✔
8	Gain the scientific knowledge to set up communication with the collegues. Gain the ability to follow and use of the literature. Gain the ability to share or present the results of his/her own studies with the scientists during a scientific conference, workshop or seminar.			✔
9	Participate scientific collaborations effectively and lead a scientific study if necessary.			✔
10	Follow the innovations in the field of biology. Gain the ability to find resources and to use the databases.					✔
11	Find new or strategical approaches to solve an unpredicted or advanced problems.			✔
12	Improve scientific knowledge where there is a little or limited data present. Gain the ability to connect the information from different scientific diciplines.				✔
13	Find unique ideas and get in contact with the professionals in scientific topics using his/her knowledge and skills.				✔
14	Have the ability to read, understand, speak and write a foreign language in order to contact with the scientists from all over the World.			✔
15	Follow novel developments in computational software and hardware systems related with biology, use this knowledge and skill in research.				✔
16	Obey the ethical regulations and watch the ethical issues while designing a scientific study, collecting data, evaluating and publishing them.					✔
17	Adopt life-long learning strategies during performing scientific studies.					✔

Relations with Education Attainment Program Course Competencies

Program Requirements	DK1
PY1	5
PY2	5
PY3	5
PY4	5
PY6	4
PY7	4
PY8	3
PY9	3
PY10	5
PY11	3
PY12	4
PY13	4
PY14	3
PY15	4
PY16	5
PY17	5

Recommended Sources

Ders Kitabı veya Notu	Ders Kitabı veya Ders Notu bulunmamaktadır.
Diğer Kaynaklar	Madigan, M., Martinko, J. 2006. Brock Biology of Microorganisms (11th Edition), Prentince-Hall, USA Dworkin, M., Falkowi, S., Rosenberg, E. 2006. The Prokaryotes: A Handbook on the Biology of Bacteria: Vol. 3: Archaea and Bacteria: Firmicutes, Actinomycetes. Springer, USA Uçar, F., Tamer, A.Ü., Yaşa, İ., Koçyiğit, A. (2008). Prokaryotik Çeşitlilik. İzmir Güven Kitapevi, İzmir. Garrity, G.M., Boone, D.R. 2001. Bergey's Manual of Systematic Bacteriology Volume 1: The Archaea and the Deeply Branching and Phototrophic Bacteria. Springer, USA

ECTS credits and course workload

ECTS credits and course workload		Quantity	Duration (Hour)	Total Workload (Hour)
Ders İçi	Class Hours	14	4	56
Ders Dışı	Research	14	2	28
	Interview	2	2	4
	Presentation (Preparation)	14	2	28
	Practice	14	2	28
Sınavlar	Midterm 1	1	2	2
	Final	1	2	2
	Classroom Activities	14	4	56
Total Workload				204
*AKTS = (Total Workload) / 25,5		ECTS Credit of the Course		25.5 8.0