SCI2200
DyNAmic DNA: You are not alone

DNA is the recipe book for all living things. This small molecule can tell us about our past, present, and future. It is what makes us all unique and what ties us together. DNA can answer some of life's biggest questions: Where do we come from? How are we made? Can we cure disease? Can we predict the future or change the outcome? In this course, we will examine the spectacular DNA molecule and how it works. Through contemporary articles, research, images, and videos, we will investigate ways in which DNA can be used to predict traits, detect disease, discover ancestry and engineer babies. We will look at DNA's involvement in our evolution, and how we can harness its powers to create superfoods, change a wolf into a pug or clone extinct species. Through a combination of discussion boards, quizzes and assignments, students will discuss DNA history, technology and social attitudes, providing them with a greater understanding of their genetic make-up, both on a personal and global level.

This is a General Education course that supports learning in the following theme area(s): Civic Life , Personal Understanding , Science and Technology , Social and Cultural Understanding

This course contributes to your program by helping you achieve the following Essential Employability Skills:

When you have earned credit for this course, you will have demonstrated the ability to:

1. Describe how building blocks of the living cell, such as DNA, RNA, proteins, and chromosomes, relate to the study of genetics.

• Identify the components of an animal cell.
• Describe the structure, location and purpose of DNA and RNA.
• Explain DNA replication, RNA transcription, protein synthesis and the structure of chromosomes.
• Interpret DNA sequences as they relate to the genetic code.
• Describe reproduction on the cellular level including trait inheritance and genetic variation.

2. Differentiate between the effects of genetic and environmental factors on various physical and behavioural traits.

• Identify differences in allele expression and how they are represented by physical characteristics.
• Discuss gene expression and trait inheritance as it relates to physical traits such as eye colour, blood type, and disease.
• Discuss gene expression and trait inheritance as it relates to behavioural traits such as intelligence, mood disorders and schizophrenia.
• Identify environmental and lifestyle factors that affect gene expression.

3. Summarize chromosome trends and abnormalities relating to physical traits and health conditions, and the methods that allow us to identify those abnormalities.

• Differentiate between different types of gene inheritance.
• Identify single-gene inheritance disorders such as cystic fibrosis and sickle cell anemia.
• Identify chromosomal abnormalities such as Down Syndrome.
• Investigate other hereditary conditions including colour blindness, muscular dystrophy, and hemophilia.
• List the various methods used to detect chromosome trends and abnormalities.

4. Discuss how biotechnology and the study of genetics lead to medical breakthroughs.

• Summarize the field of biotechnology and genetic engineering using tools such as CRISPR.
• Define cancer on a broad level and at the cellular level.
• Identify new gene technologies helping to fight genetic diseases.
• Summarize the Human Genome Project and how the project assists the medical field.

5. Identify theories of evolution, natural selection, and selective breeding.

• Identify Darwin’s theory of evolution, natural selection, and species fitness.
• Describe the origin of our species and our position on the Primate Family Tree relative to other ancient human species.
• Explain ancient humans and modern humans using DNA analysis and physiology.
• Explain how different hominins populated the planet.
• Recognize selective breeding and how it relates to agricultural crops and animal breeding.

6. Explain population genetics and how it affects everything from humans, to herds of animals and even bacteria.

• Describe the field of population genetics.
• Define the Hardy-Weinberg Equilibrium and its conditions.
• Identify various population movements and human interactions which affect allele frequency.
• Explain how at-home DNA kits tell us about our ancestry.
• Connect population genetics with species extinction and resistance.

7. Address the field of bioethics as it relates to genetic testing, reproductive technologies, genetically modified organisms, and cloning.

• Explore the field of bioethics.
• Identify different types of assisted reproductive technologies (ARTs).
• Identify genetically modified organisms and investigate pros and cons of GM Foods.
• Trace the process of cloning and how cloning can be used to bring back extinct species.
• Discuss bioethics and privacy of information as it relates to DNA testing kits.

The following list provides evidence of this course's learning achievements and the outcomes they validate:

Quiz(zes) (30%)

Validates Outcomes:  CLR 1, CLR 2, CLR 3, CLR 4, CLR 5, CLR 6, EES 1, EES 6, EES 7

Discussion(s) (30%)

Validates Outcomes:  CLR 1, CLR 2, CLR 3, CLR 4, CLR 5, CLR 6, CLR 7, EES 1, EES 6, EES 7, EES 8, EES 9, EES 11

Assignment(s) (30%)

Validates Outcomes:  CLR 1, CLR 2, CLR 3, CLR 4, CLR 5, CLR 6, CLR 7, EES 1, EES 6, EES 7, EES 8, EES 9, EES 11

Final Exam (10%)

Validates Outcomes:  CLR 1, CLR 2, CLR 3, CLR 4, CLR 5, CLR 6, CLR 7, EES 1, EES 6, EES 7

Students who wish to apply for Prior Learning Assessment and Recognition (PLAR) need to demonstrate competency at a post-secondary level in all outlined course learning requirements. Evidence of learning achievement for PLAR candidates includes:

• Portfolio

Students are required to respect the confidentiality of employer, client and/or patient information, interactions, and practices that occur either on Algonquin College premises, or at an affiliated clinical/field/co-op placement site. Concerns regarding clients, patients, and/or employer practices are to be brought to the attention of the program coordinator, or designated field/clinical/co-op placement supervisor so that they may be resolved collaboratively. Such concerns are not to be raised publically either verbally, in writing, or in electronic forums. These matters are to be addressed through established program communication pathways.

Grade Scheme