Difference between revisions of "Organization of genetics topics"

From Genetics Wiki
Jump to: navigation, search
Line 4: Line 4:
  
 
The topics I would like an introductory genetics class to cover (or at least touch on in an introductory sense) include:  
 
The topics I would like an introductory genetics class to cover (or at least touch on in an introductory sense) include:  
 
*quantitative genetics of complex traits and the regression
 
*inbreeding and population structure
 
*average heterozygosity and effective population size, the coalescent
 
*X-inactivation, imprinting and epigenetics
 
*species phylogeny
 
*selection and genetic drift
 
*gene evolution and gene families
 
*comparison of model organisms and viral versus bacterial versus eukaryotic genetics
 
  
 
*classical genetics
 
*classical genetics
Line 29: Line 20:
 
**distinction between the germ-line and the soma
 
**distinction between the germ-line and the soma
 
*molecular genetics
 
*molecular genetics
**metabolic pathways, developmental pathways, and epistasis
 
 
**gene structure, gene expression regulation, protein structure, and the central dogma
 
**gene structure, gene expression regulation, protein structure, and the central dogma
 
**genome structure and organization
 
**genome structure and organization
 
**types of mutations and their effects
 
**types of mutations and their effects
 +
**metabolic pathways, developmental pathways, and epistasis
 
**transposable elements and other forms of selfish genes
 
**transposable elements and other forms of selfish genes
 
**genotype/phenotype association tests
 
**genotype/phenotype association tests
 +
**comparison of model organisms and viral versus bacterial versus eukaryotic genetics
 
**methods of genetic engineering and germ line transformation
 
**methods of genetic engineering and germ line transformation
 
**genetic tools such as binary expression systems, PCR, Sanger sequencing, next generation sequencing, restriction endonucleases, and plasmid engineering, FISH, probes, chip hybridization
 
**genetic tools such as binary expression systems, PCR, Sanger sequencing, next generation sequencing, restriction endonucleases, and plasmid engineering, FISH, probes, chip hybridization
 
**forward genetics and reverse genetics
 
**forward genetics and reverse genetics
 +
**X-inactivation, imprinting and epigenetics
 
*population genetics
 
*population genetics
 +
**inbreeding and population structure
 +
**average heterozygosity and effective population size, the coalescent
 +
**selection and genetic drift
 +
**tests of neutrality
 
*quantitative genetics
 
*quantitative genetics
*evolutionary
+
**parent-offspring regression
 +
**heritability and phenotype variance
 +
**breeder's equation
 +
**twin studies
 +
*evolutionary genetics
 +
**species phylogeny
 +
**gene evolution and gene families
 +
**evo-devo
 
*supporting statistical logic
 
*supporting statistical logic
 
**probability rules
 
**probability rules
Line 48: Line 52:
 
**the chi-square test and degrees of freedom
 
**the chi-square test and degrees of freedom
 
**linear regression
 
**linear regression
 +
**means and variance
 
*interdisciplinary
 
*interdisciplinary
 
**the history of eugenics and current laws regarding genetic data
 
**the history of eugenics and current laws regarding genetic data

Revision as of 12:51, 22 August 2014

I am interested in what people thin the best organization of genetics topics might be.

Genetics is a vast, rapidly changing field. There are connections to other diverse fields such as psychology, law, medicine, history, and teaching. A classic way to divide genetics topics is into classical, molecular, and population genetics; however, I suspect this leaves out important areas.

The topics I would like an introductory genetics class to cover (or at least touch on in an introductory sense) include:

  • classical genetics
    • Mendelian Inheritance and Punnet squares
    • Complementation tests
    • Genetic linkage and recombination
    • Punnet squares and epistasis
    • alleles and morphs
    • penetrance and expressivity
    • pedigree analysis
    • LOD scores
  • cytological genetics
    • chromosomes, mitosis and meiosis, nondisjunction, aneuploidy, polyploidy
    • sex chromosomes and sex determination systems
    • aneuploidy and polyploidy
    • distinction between the germ-line and the soma
  • molecular genetics
    • gene structure, gene expression regulation, protein structure, and the central dogma
    • genome structure and organization
    • types of mutations and their effects
    • metabolic pathways, developmental pathways, and epistasis
    • transposable elements and other forms of selfish genes
    • genotype/phenotype association tests
    • comparison of model organisms and viral versus bacterial versus eukaryotic genetics
    • methods of genetic engineering and germ line transformation
    • genetic tools such as binary expression systems, PCR, Sanger sequencing, next generation sequencing, restriction endonucleases, and plasmid engineering, FISH, probes, chip hybridization
    • forward genetics and reverse genetics
    • X-inactivation, imprinting and epigenetics
  • population genetics
    • inbreeding and population structure
    • average heterozygosity and effective population size, the coalescent
    • selection and genetic drift
    • tests of neutrality
  • quantitative genetics
    • parent-offspring regression
    • heritability and phenotype variance
    • breeder's equation
    • twin studies
  • evolutionary genetics
    • species phylogeny
    • gene evolution and gene families
    • evo-devo
  • supporting statistical logic
    • probability rules
    • binomial distributions
    • normal distribution
    • Poisson distribution
    • the chi-square test and degrees of freedom
    • linear regression
    • means and variance
  • interdisciplinary
    • the history of eugenics and current laws regarding genetic data
    • GMO crops including examples, methods, ethics, and economics
    • genetic pest management
    • medical and cancer genetics
    • personal genomics
    • developmental genetics
    • genetic anthropology