MATHEMATICS
Bachelor	TR-NQF-HE: Level 6	QF-EHEA: First Cycle	EQF-LLL: Level 6

Course Introduction and Application Information

Course Code	Course Name	Semester	Theoretical	Practical	Credit	ECTS
MBG4062	Forensic Genetics	Fall	3	0	3	6

This catalog is for information purposes. Course status is determined by the relevant department at the beginning of semester.

Basic information

Language of instruction:	English
Type of course:	Non-Departmental Elective
Course Level:	Bachelor’s Degree (First Cycle)
Mode of Delivery:	Face to face
Course Coordinator :	Dr. Öğr. Üyesi ELIZABETH HEMOND
Course Objectives:	The aim of this course is to teach the students how to obtain the biological evidence, DNA sources, possible ways to obtain DNA, polymorphic systems used in past and present, basic principles of population genetics, identification, affinity determination e.t.c.

Learning Outcomes

The students who have succeeded in this course;
1. The use of and application molecular biology techniques in forensic science
2. Crime scene investigation- the collection and transfer of biological evidence
3. Evaluation of biological evidence found at the crime scene and establish a connection between the suspect - victim.
4. identification of biological evidence using DNA technologies and determination of paternity and kinship.
5.The importance of DNA banks In solving forensic cases

Course Content

Pure expression, assignment preparation, discussion and evaluation. Students are going to prepare assignments about the uses of DNA in forensic cases. These cases are going to be discussed in the course, so that they can assess their theological knowledge. By preparing their assessments, the students are going to scan scientific literature from internet and scientific journals

Weekly Detailed Course Contents

Week	Subject	Related Preparation
1)	Crime Scene Investigation and DNA Sources I
2)	Crime Scene Investigation and DNA Sources II
3)	Genetic Markers and Blood Types
4)	Polymorphic Enzymes and Proteins
5)	Forensic Sciences and DNA
6)	Biological samples and DNA Isolation Techniques
7)	RFLP, PCR and Electrophoresis Techniques and to use of in Forensic sciences
8)	VNTR and STR loci, Somatic STRs
9)	X- and Y- chromosome STR loci - the use of forensic cases
10)	Mitochondrial DNA and its Analyzes Techniques-- the use of forensic cases
11)	STR analyzes- Problems and solutions
12)	Mini-STR Loci- advantage of forensic cases
13)	SNP and Forensic Identification
14)	The importance of DNA Banks in solving criminal cases

Sources

Course Notes / Textbooks:

John M. Butler Fundamentals of Forensic DNA Typing (2009) National Institute of standards and technology Gaithersburg,Maryland,USA
William Goodwin, Adrian linacre, Sibte Hadi. An Introduction To Forensic Genetics (2007) Jhon Wiley Ltd.England, ISBN:978-0-470-01025-9
John M. Butler. Forensic DNA Typing: Biology and Technology Behind STR Markers, Academic Press; 2nd edition (2/22/2005), ISBN: 0121479528"

References:

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Related publications

Evaluation System

Semester Requirements	Number of Activities	Level of Contribution
Homework Assignments	1	% 10
Midterms	1	% 40
Final	1	% 50
Total		% 100
PERCENTAGE OF SEMESTER WORK		% 50
PERCENTAGE OF FINAL WORK		% 50
Total		% 100

ECTS / Workload Table

Activities	Number of Activities	Duration (Hours)	Workload
Course Hours	14	3	42
Study Hours Out of Class	14	8	112
Midterms	1	2	2
Final	1	2	2
Total Workload			158

Contribution of Learning Outcomes to Programme Outcomes

No Effect	1 Lowest	2 Low	3 Average	4 High	5 Highest

	Program Outcomes	Level of Contribution
1)	To have a grasp of basic mathematics, applied mathematics and theories and applications in Mathematics
2)	To be able to understand and assess mathematical proofs and construct appropriate proofs of their own and also define and analyze problems and to find solutions based on scientific methods,
3)	To be able to apply mathematics in real life with interdisciplinary approach and to discover their potentials,
4)	To be able to acquire necessary information and to make modeling in any field that mathematics is used and to improve herself/himself,	4
5)	To be able to tell theoretical and technical information easily to both experts in detail and non-experts in basic and comprehensible way,
6)	To be familiar with computer programs used in the fields of mathematics and to be able to use at least one of them effectively at the European Computer Driving Licence Advanced Level,
7)	To be able to behave in accordance with social, scientific and ethical values in each step of the projects involved and to be able to introduce and apply projects in terms of civic engagement,
8)	To be able to evaluate all processes effectively and to have enough awareness about quality management by being conscious and having intellectual background in the universal sense,	4
9)	By having a way of abstract thinking, to be able to connect concrete events and to transfer solutions, to be able to design experiments, collect data, and analyze results by scientific methods and to interfere,
10)	To be able to continue lifelong learning by renewing the knowledge, the abilities and the competencies which have been developed during the program, and being conscious about lifelong learning,
11)	To be able to adapt and transfer the knowledge gained in the areas of mathematics ; such as algebra, analysis, number theory, mathematical logic, geometry and topology to the level of secondary school,
12)	To be able to conduct a research either as an individual or as a team member, and to be effective in each related step of the project, to take role in the decision process, to plan and manage the project by using time effectively.