Victoria University of Wellington
Wellington, New Zealand
Area of Study
Taught In English
Course Level Recommendations
ISA offers course level recommendations in an effort to facilitate the determination of course levels by credential evaluators.We advice each institution to have their own credentials evaluator make the final decision regrading course levels.
Recommended U.S. Semester Credits5 - 6
Recommended U.S. Quarter Units7 - 8
Hours & Credits
An introduction to the structure and behaviour of chromosomes, genes and DNA; and to the processes of heredity and the mechanisms by which genetic information is transmitted and expressed in animals (including humans), plants and micro-organisms. Introduction to population genetics and DNA technologies.
Genetics is a branch of biology that deals with heredity and variation. It is a central and unifying discipline in biology and allows us to understand how life can exist at all levels of complexity, ranging from the molecular to the population level. Genetics is the common thread that explains the continuity of life from generation to generation. The increasing pace of genetic discoveries has become staggering over recent years and as we move forward into the twenty first century our knowledge of genetics will become an even more essential part of science and society. The aim of this course is to give students a good grounding in the principles of genetics. The study of genetics is typically divided into transmission, molecular and population genetics, although overlap is found among these three areas. In this course we will cover transmission, quantitative, population genetics and molecular genetics, aspects of molecular biology, and bioinformatics.
Course learning objectives
Students who pass this course will be able to:
- explain the key concepts underpinning genetics of inheritance, molecular biology technologies, gene structure and function, gene regulation, mutation and DNA repair, population genetics, bioinformatics and quantitative genetics.
- describe Mendel's first and second laws and the basic structure and function of chromosomes, and stages of mitosis and meiosis.
- analyse a population using the Hardy-Weinberg equation and explain the forces of evolution that influence genetic variation.
- examine a genome using a range of fundamental genetic analysis and molecular biology manipulations, including the extraction, purification, digestion, analysis and cloning of DNA fragments.
- identify and assess the social, ethical and economic implications of genetics.
Courses and course hours of instruction are subject to change.
Eligibility for courses may be subject to a placement exam and/or pre-requisites.
Some courses may require additional fees.
Credits earned vary according to the policies of the students' home institutions. According to ISA policy and possible visa requirements, students must maintain full-time enrollment status, as determined by their home institutions, for the duration of the program.
Please reference fall and spring course lists as not all courses are taught during both semesters.
Availability of courses is based on enrollment numbers. All students should seek pre-approval for alternate courses in the event of last minute class cancellations
Please note that some courses with locals have recommended prerequisite courses. It is the student's responsibility to consult any recommended prerequisites prior to enrolling in their course.