Dec 26, 2024  
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2023-24 Catalog [ARCHIVED CATALOG]

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BIOL 121 - Genetic Revolution

5 Credits

An introduction to human genetics examining genes, inheritance, gene expression, population genetics, genomics, research and technologies.

Pre-requisite(s) MATH 081 or higher min 2.0
Placement Eligibility Math 091 or higher
Fees

Quarters Typically Offered
Summer Online
Fall Online
Winter Online
Spring Online

Designed to Serve Non-majors
Active Date 20210403T10:07:46

Grading Basis Decimal Grade
Class Limit 28
Contact Hours: Lecture 55
Total Contact Hours 55
Degree Distributions:
AA
  • Science

Course Outline
Part 1 Introduction:

  • What Is in a Human Genome?
  • Cells
  • Meiosis, Development, and Aging

Part 2 Transmission Genetics:

  • Single-Gene Inheritance
  • Beyond Mendel’s Laws
  • Matters of Sex
  • Multifactorial Traits
  • Genetics of Behavior

Part 3 DNA and Chromosomes:

  • DNA Structure and Replication
  • Gene Action: From DNA to Protein
  • Gene Expression and Epigenetics
  • Gene Mutation
  • Chromosomes

Part 4 Population Genetics:

  • Constant Allele Frequencies and DNA Forensics
  • Changing Allele Frequencies
  • Human Ancestry and Evolution

Part 5 Immunity and Cancer:

  • Genetics of Immunity
  • Cancer Genetics and Genomics

Part 6 Genetic Technology:

  • DNA Technologies
  • Genetic Testing and Treatment
  • Reproductive Technologies
  • Genomics


Student Learning Outcomes
Describe how DNA is organized.

Identify the molecular components and mechanisms necessary to preserve and duplicate an organism’s genome.

Describe the mechanisms by which an organism’s genome is passed on to the next generation.

Deduce information about genes, alleles, and gene functions from analysis of genetic crosses and patterns of inheritance.

Recognize how genetic information is expressed so it affects an organism’s structure and function.

Identify how genes and genomes control changes in an organism's structure and function throughout its life cycle.

Recognize the processes that can affect the frequency of genotypes and phenotypes in a population over time.

Identify experimental methods commonly used to analyze gene structure, gene expression, gene function, and genetic variants.


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