TR ENG

CANKIRI KARATEKIN UNIVERSITY Bologna Information System

Course Information

Course Information

Course Content

Course's Contribution to Prog.

ECTS Workload in Relation

ECTS- Workload Calculation Tool

Program Information

Mission and Vision

Program Learning Outcomes

Course Struct. & ECTS Credits

Course Catalogs

Course & Program L. Outcomes

TYYC Level Qualification

TYYC Core Area Competencies

Admission Requirements

Access to Further Studies

Qualification Awarded

Final Examination

Assessment and Grading

Head of Dept. & Coord.

Görüş Bildir Print
  • Course Information
    • Course Title Code Semester Laboratory+Practice (Hour) Pool Type ECTS
    Molecular Virology SBS508 FALL-SPRING 2+1 University E 6
    Learning Outcomes
    1-Defines the general and molecular structures and properties of viruses.
    2-Defines genome replication and gene expression of viruses.
    3-Defines cultivation of viruses.
    4-Defines the classical methods used in the diagnosis of viral diseases.
    5-Defines the molecular methods and techniques used in the diagnosis of viral diseases.
  • ECTS / WORKLOAD
    • ActivityPercentage

    (100)

    		NumberTime (Hours)Total Workload (hours)
    Course Duration (Weeks x Course Hours)14342
    Classroom study (Pre-study, practice)13339
    Assignments2012525
    Short-Term Exams (exam + preparation) 0000
    Midterm exams (exam + preparation)3013030
    Project0000
    Laboratory 0000
    Final exam (exam + preparation) 5015050
    0000
    Total Workload (hours)   186
    Total Workload (hours) / 30 (s)     6,2 ---- (6)
    ECTS Credit   6
  • Course Content
    • Week Topics Study Metarials
    1 Introduction to virology R1-SECTION-1, R2-SECTION-1
    2 General features of viruses R1-SECTION-1, R2-SECTION-1
    3 Virus-cell interactions R1-SECTION-2, R2-SECTION-1
    4 Virus evolution and emergence R3-SECTION-7
    5 Genome principles. Baltimore system, structure and complexity of viral genomes R2-SECTION-1, R3-SECTION-3
    6 Replication of RNA viruses R2-SECTION-6, R3-SECTION-4
    7 Replication of DNA viruses R2-SECTION-9, R3-SECTION-4
    8 Patterns of viral enfection R3-SECTION-7
    9 Cultivation of viruses R1-SECTION-4
    10 Classical diagnostic techniques used for viral diseases R1-SECTION-4
    11 Molecular diagnostic techniques used for viral diseases R1-SECTION-5
    12 Polimerase Chain Reaction (PCR) in virology R1-SECTION-5
    13 Sequencing analysis and bioinformatics in virology R1-SECTION-6
    14 Viral vectors R1-SECTION-24
    Prerequisites -
    Language of Instruction Turkish
    Responsible Asst. Prof. Üyesi Müge FIRAT
    Instructors -
    Assistants -
    Resources R1- Abacıoğlu, H., Ağaçfidan, A., Badur, S., Bozkaya, E., Çakar, A., Çolak, D., Erensoy, S., Ergünay, K., Horasanlı, S., Kubar, A., Mutlu, D., Özkuyumcu, C., Sayıner, A., Us, D., Ustaçelebi, Ş., Yarkın, F. & Uz, T. (2004). Moleküler, Klinik ve Tanısal Viroloji (1. baskı). Ş. Ustaçelebi, H. Abacıoğlu, S. Badur (Ed.), Güneş Kitabevi, Ankara. R2- Flint, S.J., Enquist, L.W., Racaniello, V.R. & Skalka, A.M. (2004). Principles of Virology. ASM Press, Washington.R1- FLINT S.J., ENQUIST L.W., RACANIELLO V.R., SKALKA A.M. (2004): Principles of Virology, Second Edition, ASM Press, Washington, D.C. R3- Cann, A.J. (2016). Principles of Molecular Virology (Sixth Edition), Academic Press, ELSEVIER.
    Supplementary Book -
    Goals To give information about the genetical and morphological structures of the viruses, the structure and complexity of virus genomes, genome replication and gene expression of viruses, molecular diagnosis and genetic analysis of viruses.
    Content Introduction to virology; General features of viruses; Virus-cell interactions; Virus evolution and emergence; Genome principles, Baltimore system, structure and complexity of viral genomes; Replication of RNA viruses; Replication of DNA viruses; Patterns of viral enfection; Cultivation of viruses; Classical diagnostic techniques used for viral diseases; Molecular diagnostic techniques used for viral diseases; Polimerase Chain Reaction (PCR) in virology; Sequencing analysis and bioinformatics in virology; Viral vectors.
  • Program Learning Outcomes
    • Program Learning Outcomes Level of Contribution
    1 Have the knowledge about concepts, theories, national and international practices and relations between the concepts in experimental animal science. -
    2 Have sufficient knowledge about experimental animals and their development properties. -
    3 Evaluate and monitor the development of the experimental animals using distinctive methods and techniques. -
    4 Have the knowledge about the diseases of experimental animals in different age and developmental stage and explain the intended practice approaches. -
    5 Design and perform experimental models by considering experimental animals? requirements, developments and individual differences. -
    6 Plan and implement a novel research on Experimental animals science. -
    7 Have sufficient knowledge about special experimental animals like specific-pathogene free. -
    8 Design and perform education programs in experimental modelling with experimental animals. -
    9 Take responsibility in individual and group studies to solve the encountered problems in the practices with experimental animals. -
    10 Have the knowledge of different disciplines to use in the field of experimental animals science. -
    Çankırı Karatekin Üniversitesi  Bilgi İşlem Daire Başkanlığı  @   2017 - Webmaster