1. SHORT CYCLE - ASSOCIATE'S DEGREE
  2. TAVAS VOCATIONAL SCHOOL
  3. CROP AND ANIMAL PRODUCTION DEPARTMENT
  4. 783 ORGANIC AGRICULTURE
Course Information Course Learning Outcomes Course's Contribution To Program ECTS Workload Course Details
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COURSE INFORMATION
Course CodeCourse TitleL+P HourSemesterECTS
ORG 105GENETIC2 + 01st Semester3

COURSE DESCRIPTION
Course Level Associate's Degree
Course Type Compulsory
Course Objective Students genetic basis of eukaryotes and prokaryotes, gene linkage, recombination and genetic problems they encounter will learn how to bring a solution.
Course Content Introduction to Genetics: History and genetics of the historical development of the chromosome theory of inheritance of: genetic material definition, genes and chromosomes, cell division (mitosis and meiosis), chromosome inheritance and the issues related to problem solving. Mendelian Genetics: Mendel's laws, chi-square analysis and pedigree of Mendelian genetics extensions: Dominance in the diversity (dominant Markers and incomplete dominance) on the same character multiple gene interactions (epistasis), pleitrop very allelilik, lethal effective alleles, X-linked inheritance, sexual in limited, as affected by the influence of heredity and environment. Linkage Linked genes: dependent gene elicitation, recombination, gene mapping, 3-point test crosses, interference, dependent gene map examples, cross-get-ovarian nature, tetrad analysis, mitotic recombination and segregation. The structure of DNA: DNA genetic material, DNA structure, and mechanism of DNA replication, DNA replication in eukaryotes, DNA and gene. The function of DNA: transcription, translation of the genetic code, protein synthesis, microcomputers universal genetic code, eukaryotic RNA and gene splising mechanism. Regulation of gene: regulation of the lac operon genes in prokaryotes, discovery (positive and negative control), and problem solving. Recombination in bacteria and their viruses in bacteria transfer mechanisms: bacterial conjugation, bacterial recombination and the E. coli chromosomal transformation haritalamaları.bakterial bacteriophage genetics, trandüksüyo the bacterial chromosome and gene mapping to be transferred. Extranuclear inheritance: extranuclear inheritance in higher plants, fungi extranuclear inheritance, in snails, Chlamydomonas' foreign genes in the nucleus, mitochondria and chloroplast genome genome.
Prerequisites No the prerequisite of lesson.
Corequisite No the corequisite of lesson.
Mode of Delivery Face to Face

COURSE LEARNING OUTCOMES
1Know the historical development of genetics.
2Chromosome theory of heredity: the definition of genetic material, genes and chromosomes, cell division (mitosis and meiosis), the chromosomes inherited problems and solutions related to these issues.
3Mendelian genetics and Mendelian genetics knows extensions.
4What are the structure and function of DNA knows
5How to recombination in bacteria and their viruses are examined on this issue makes problem solving.
6What is the outer core inheritance? How to solve the problems of dealing with this issue are examined.

COURSE'S CONTRIBUTION TO PROGRAM
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ECTS ALLOCATED BASED ON STUDENT WORKLOAD BY THE COURSE DESCRIPTION
ActivitiesQuantityDuration (Hour)Total Work Load (Hour)
Course Duration (14 weeks/theoric+practical)14228
Assignments14114
Laboratory12336
Total Work Load

ECTS Credit of the Course





78

3
COURSE DETAILS
 Select Year   


 Course TermNoInstructors
Details 2023-2024 Fall1NAİME NUR BOZBEYOĞLU KART


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Course Details
Course Code Course Title L+P Hour Course Code Language Of Instruction Course Semester
ORG 105 GENETIC 2 + 0 1 Turkish 2023-2024 Fall
Course Coordinator  E-Mail  Phone Number  Course Location Attendance
Lecturer NAİME NUR BOZBEYOĞLU KART nbozbeyoglu@pau.edu.tr TMYO B0107 %70
Goals Students genetic basis of eukaryotes and prokaryotes, gene linkage, recombination and genetic problems they encounter will learn how to bring a solution.
Content Introduction to Genetics: History and genetics of the historical development of the chromosome theory of inheritance of: genetic material definition, genes and chromosomes, cell division (mitosis and meiosis), chromosome inheritance and the issues related to problem solving. Mendelian Genetics: Mendel's laws, chi-square analysis and pedigree of Mendelian genetics extensions: Dominance in the diversity (dominant Markers and incomplete dominance) on the same character multiple gene interactions (epistasis), pleitrop very allelilik, lethal effective alleles, X-linked inheritance, sexual in limited, as affected by the influence of heredity and environment. Linkage Linked genes: dependent gene elicitation, recombination, gene mapping, 3-point test crosses, interference, dependent gene map examples, cross-get-ovarian nature, tetrad analysis, mitotic recombination and segregation. The structure of DNA: DNA genetic material, DNA structure, and mechanism of DNA replication, DNA replication in eukaryotes, DNA and gene. The function of DNA: transcription, translation of the genetic code, protein synthesis, microcomputers universal genetic code, eukaryotic RNA and gene splising mechanism. Regulation of gene: regulation of the lac operon genes in prokaryotes, discovery (positive and negative control), and problem solving. Recombination in bacteria and their viruses in bacteria transfer mechanisms: bacterial conjugation, bacterial recombination and the E. coli chromosomal transformation haritalamaları.bakterial bacteriophage genetics, trandüksüyo the bacterial chromosome and gene mapping to be transferred. Extranuclear inheritance: extranuclear inheritance in higher plants, fungi extranuclear inheritance, in snails, Chlamydomonas' foreign genes in the nucleus, mitochondria and chloroplast genome genome.
Topics
WeeksTopics
1 Introduction, genetic definition, scope, basic concepts in genetics
2 Nucleic acids, DNA organization of genetic material functions
3 Replication of the genetic code, transcription, translation
4 Transmission of genetic material from cell to cell (mitosis), the transmission of the genetic material from generation to generation (meiosis)
5 Mendelian of the inheritance of traits, Mendel's rules
6 Monohibrid and dihibrid openings, problem solvin
7 Mendelian properties of binomial applications, problem solving
8 Benefiting from the opening of the phenotypic structure of genotypic identification, problem solving
9 Genetic analysis in the calculus of probability and statistics
10 Equivalent inheritance, epistatic inheritance, lethality, penetrance and expressivity
11 Multiple alleles, environmental conditions, heredity factors influence
12 Sex determination and sex-linked inheritance
13 Sex determination and sex-linked inheritance
14 Genes, genome and chromosome mutations.
Materials
Materials are not specified.
Resources
ResourcesResources Language
Demir, I., 1986. Genetik. E.U.Z.F. Yayınları No: 263 Bornova- İzmirTürkçe
Temizkan, G.O., 1994. Genetik I. Temel Genetik. I.U.F.F. BasımeviTürkçe
Lewin, B. 2000. Genes VII, Oxford University Press, ISBN 0-19-879280-8.Türkçe
Russel, P.J. 2002. iGenetics, Pearson Education Inc., ISBN0-321-18172-7. Türkçe
Klug., W.S and Cummings., M. R. 2000. Concepts of Genetics. Öner., C. (Çeviri edit.) Genetik Kavramlar. ISBN.0-13-081626-4Türkçe
Course Assessment
Assesment MethodsPercentage (%)Assesment Methods Title
Final Exam60Final Exam
Midterm Exam40Midterm Exam
L+P: Lecture and Practice
PQ: Program Learning Outcomes
LO: Course Learning Outcomes