1. Genetics Lab Dr. Jeff Young young@biol.wwu.edu
Office Hours: BI 412 MWT am or by appointment
Lecture: T 11 – 11:50 pm in ES410
Lab: WF 1:30 - 4:30 pm in BI454

2. Course Goals Content goals: Process goals:
You should understand and be able to apply classical genetic and molecular genetic principles in a laboratory setting. Specifically, you should obtain a reasonably sophisticated understanding of several major aspects of genetics, including Mendelian Genetics, prokaryotic genetics, and molecular genetics.
You should acquire skills in handling model organisms, keeping detailed research records, analyzing data and writing scientific reports.
 Process goals:
You should improve your critical thinking skills through the analysis of experimental data.
You should improve your quantitative reasoning skills.
You should improve your written communication skills.

3. Lab Notebook Prepare and hand in an abstract of the day’s work.
Will be used to record your activities and observations during each laboratory period…
with numbered pages,
with table of contents,
organize your notebook by experiment and not by class period.
Prepare and hand in an abstract of the day’s work.
Work up and analyze your data as soon as you've completed the experiment and while it is still fresh in your mind.

4. Texts/Lab Manual/etc. None. Hand outs (also posted).
Genetics texts on reserve.
Attendance is mandatory.

5. Evaluation Notebooks 40 points total Lab Behavior 30 points
Formal Lab Write-ups 100 pts. 
Mid Term and Final 50 pts. (each) 
Pop quizzes and other assignments 30 pts. 
Approximate Grading Scale
points A
points B
points C
points D
Below 180 points F

6. Schedule

7. A small, free-living bacteriovorous soil nematode.
Mendel Revisited
C. elegans is a nematode, phyllum Nematoda. Nematodes can be free-living or parasitic and can be found in terrestrial or aquatic habitats.  
Bacteriovorous: in the lab, C. elegans is fed on E. coli. 
Self-fertilizing: adult C. elegans are usually self- fertilizing protandrous hermaphrodites. Thus it is easy to generate homozygous mutant stocks.  
The lifecycle takes about 2.5 days at 250 C 
C. elegans is diploid and has five pairs of chromosomes (named I, II, III, IV and V) and sex chromosome(s) (X). 
Gender is determined by an XX (hermaphrodite) - XO (male) chromosomal system .
Males are found rarely (about 0.05% of normal lab populations).  
The commonest lab strain, and the designated "wild type" strain, is called N2. 
Hermaphrodites have exactly 959 cells, each cell derived in an exact and invariable manner. 
Males have 1031 cells.
Caenorhabditis elegans
A small, free-living bacteriovorous soil nematode.
Parts

8. Cell Fate

9. C. elegans Genome
The C. elegans genome is spread across six approximately equally sized chromosomes (5 autosomes, one X). 
The genome size is 97 Megabases (Mb) 
The genomes of other nematodes are in the same range. Brugia malayi, a filarial parasite of humans, has a genome of 100 Mb.  
The AT content is 60%. 
The genome is sequenced.

10. C. elegans Nomenclature
Tower of Babel

11. Making Crosses
C. elegans is usually a self-fertilizing hermaphrodite. However, it is possible to set up genetic crosses…
C. elegans (0.05%) males are found in natural, or wildtype populations 
they develop after accidental non- disjunction of the X chromosomes in gametogenesis (males are XO 
the rate of non-disjunction can be increased by exposing a population of hermaphrodites to heat shock (30 deg. C for >6 hrs) 
Male sperm out-competes hermaphrodite sperm,
”male lines" can be propagated indefinitely by picking individual males and hermaphrodites 
him strains, mutant lines that yield high frequencies of males.

12. Wt (N2) X unc-32; dpy-11 Wt
unc
dpy

13. Lab Life Cycles

14. Diagram Cross due Friday, in Notebook…
P: N2 X unc-32; dpy-11
F1: Genotype(s), Ratio
F2: Genotype(s), Ratio
Save Room for the next assignment:
F3 generation, from wt phenotype F2s.
Tails
Movements
~Size

16. Wednesday, Introduction to Bioinformatics