SCHEDULE: STAT/BSTAT 550 ONLINE: Spring 2008

THIS SCHEDULE IS PRELIMINARY, AND SUBJECT TO CHANGE

Date Topic References and remarks

Week 1:
March 31-April 4 1.1 General introduction. Mendel's laws.
1.2 Terminology. Pedigrees.
Passwords are available for new Biostat accounts.
Discussion and questions re homework1: April 7. Audio lecture: Chapter 1 Part1

Get set up for your StatGen computing
Homework 1 due April 8

Week 2:
April 7-11 1.3 Allele and genotype frequencies;
1.3 Hardy-Weinberg equilibrium.
1.3 Population subdivision.
1.3 Estimating allele freqs: recessive case
1.3 Estimating allele frequencies from relatives
Audio lecture: Chapter 1 Part 2
Background on likelihood
Help on meaning of expectations
Homework 2 due April 15
and Lab 1 due April 17

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Week 3:
April 14-18. 1.4 Testing HWE: goodness of fit
1.4 Testing the ABO blood group models
1.5 The EM algorithm for multinomial data
1.5 EM algorithm: examples.
Lab 1 due April 17

Homework 3 due Apr 21
Audio lecture: Chapter 1 Part 3

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Week 4:
April 21-25 1.6 Haplotypes and allelic association
1.6 Estimating phase and haplotype frequencies.
1.7 Mutation, selection, and random genetic drift
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2.1 Introduction to pedigrees
2.2 Kinship and inbreeding coefficients
2.2 Computation of kinship by path-counting and by recursion.
Audio lecture: Chapter 1 Part 4
Audio lecture: Chapter 2 Part 1

Homework 4 due Apr 29

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Week 5:
Apr 25-May 2 2.2 Recessive traits in inbred individuals
2.3 IBD between pairs of relatives
2.3 Triangle-representation of relationships.
2.3 Back to IBD--quadruple half first cousins.
2.4 Data on pairs of relatives
Audio lecture: Chapter 2 Part 1 (Last part)
Audio lecture: Chapter 2 Part 2 (First half)

Lab 2 due May 1

Homework 5 due May 6

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Week 6:
May 5-9 2.4 General relationship of IBD to data.

Chapter 3: Linkage and recombination
3.1 Haplotypes and allelic association.
The sources of allelic association.
Decay of allelic association over generations
Audio lecture: Chapter 2 Part 2 (Last bit)
Audio lecture: Chapter 3 Part 1

Lab 3 due May 15

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Week 7: May 12-16 3.2 Counting recombinants and estimating recombination. Testing for linkage.
3.3 Linkage designs and information
3.4 Power, sample size and information
No graded Homework
Email 1 paragraph of thoughts about your project (uploaded May 8)
Audio lecture: Chapter 3 Part 2 (Sec 3.2)
Audio lecture: Chapter 3 Part 3 (Sec 3.3,3.4) (uploaded May 12)

Homework 6 will be due May 20

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Week 8: 3.5 Two-locus gene ibd (omit 2-locus kinship)
3.6 Homozygosity mapping Audio lecture: Chapter 3 Part 4 (Sec 3.5,3.6) (SOON)
Audio lecture: Chapter 4 Part 1 (Sec 4.1, ??) (SOON)

Homework 6 due May 20
Papers list

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Week 9 4.1 Meiosis, maps and map functions
4.2 Multilocus recombination: the Lander-Green algorithm
4.2 EM for genetic map estimation
Lab 4 due.
Homework 7 due.

Week 10: 4.3 Bigger pedigrees -- Elston-Stewart algorithm
4.3 SIMLINK etc.
4.4 Monte Carlo sampling on pedigrees. Homework 8 and Lab 5 due. (??? SOON)

Week 11 PROJECTS DUE Due by email (files names with your name and NO spaces).

Date	Topic	References and remarks
Week 1: March 31-April 4	1.1 General introduction. Mendel's laws. 1.2 Terminology. Pedigrees. Passwords are available for new Biostat accounts. Discussion and questions re homework1: April 7.	Audio lecture: Chapter 1 Part1 Get set up for your StatGen computing Homework 1 due April 8
Week 2: April 7-11	1.3 Allele and genotype frequencies; 1.3 Hardy-Weinberg equilibrium. 1.3 Population subdivision. 1.3 Estimating allele freqs: recessive case 1.3 Estimating allele frequencies from relatives	Audio lecture: Chapter 1 Part 2 Background on likelihood Help on meaning of expectations Homework 2 due April 15 and Lab 1 due April 17
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Week 3: April 14-18.	1.4 Testing HWE: goodness of fit 1.4 Testing the ABO blood group models 1.5 The EM algorithm for multinomial data 1.5 EM algorithm: examples.	Lab 1 due April 17 Homework 3 due Apr 21 Audio lecture: Chapter 1 Part 3
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Week 4: April 21-25	1.6 Haplotypes and allelic association 1.6 Estimating phase and haplotype frequencies. 1.7 Mutation, selection, and random genetic drift --- 2.1 Introduction to pedigrees 2.2 Kinship and inbreeding coefficients 2.2 Computation of kinship by path-counting and by recursion.	Audio lecture: Chapter 1 Part 4 Audio lecture: Chapter 2 Part 1 Homework 4 due Apr 29
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Week 5: Apr 25-May 2	2.2 Recessive traits in inbred individuals 2.3 IBD between pairs of relatives 2.3 Triangle-representation of relationships. 2.3 Back to IBD--quadruple half first cousins. 2.4 Data on pairs of relatives	Audio lecture: Chapter 2 Part 1 (Last part) Audio lecture: Chapter 2 Part 2 (First half) Lab 2 due May 1 Homework 5 due May 6
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Week 6: May 5-9	2.4 General relationship of IBD to data. Chapter 3: Linkage and recombination 3.1 Haplotypes and allelic association. The sources of allelic association. Decay of allelic association over generations	Audio lecture: Chapter 2 Part 2 (Last bit) Audio lecture: Chapter 3 Part 1 Lab 3 due May 15
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Week 7: May 12-16	3.2 Counting recombinants and estimating recombination. Testing for linkage. 3.3 Linkage designs and information 3.4 Power, sample size and information	No graded Homework Email 1 paragraph of thoughts about your project (uploaded May 8) Audio lecture: Chapter 3 Part 2 (Sec 3.2) Audio lecture: Chapter 3 Part 3 (Sec 3.3,3.4) (uploaded May 12) Homework 6 will be due May 20
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Week 8:	3.5 Two-locus gene ibd (omit 2-locus kinship) 3.6 Homozygosity mapping	Audio lecture: Chapter 3 Part 4 (Sec 3.5,3.6) (SOON) Audio lecture: Chapter 4 Part 1 (Sec 4.1, ??) (SOON) Homework 6 due May 20 Papers list
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Week 9	4.1 Meiosis, maps and map functions 4.2 Multilocus recombination: the Lander-Green algorithm 4.2 EM for genetic map estimation	Lab 4 due. Homework 7 due.
Week 10:	4.3 Bigger pedigrees -- Elston-Stewart algorithm 4.3 SIMLINK etc. 4.4 Monte Carlo sampling on pedigrees.	Homework 8 and Lab 5 due. (??? SOON)
Week 11	PROJECTS DUE	Due by email (files names with your name and NO spaces).