The genetic dissection of complex traits

Slides:

Advertisements

Similar presentations

15 The Genetic Basis of Complex Inheritance

Advertisements

Advanced Piloting Cruise Plot.

Feichter_DPG-SYKL03_Bild-01. Feichter_DPG-SYKL03_Bild-02.

© 2008 Pearson Addison Wesley. All rights reserved Chapter Seven Costs.

Copyright © 2003 Pearson Education, Inc. Slide 1 Computer Systems Organization & Architecture Chapters 8-12 John D. Carpinelli.

Chapter 1 The Study of Body Function Image PowerPoint

Copyright © 2011, Elsevier Inc. All rights reserved. Chapter 6 Author: Julia Richards and R. Scott Hawley.

Author: Julia Richards and R. Scott Hawley

1 Copyright © 2013 Elsevier Inc. All rights reserved. Appendix 01.

Properties Use, share, or modify this drill on mathematic properties. There is too much material for a single class, so you’ll have to select for your.

UNITED NATIONS Shipment Details Report – January 2006.

1 RA I Sub-Regional Training Seminar on CLIMAT&CLIMAT TEMP Reporting Casablanca, Morocco, 20 – 22 December 2005 Status of observing programmes in RA I.

Jeopardy Q 1 Q 6 Q 11 Q 16 Q 21 Q 2 Q 7 Q 12 Q 17 Q 22 Q 3 Q 8 Q 13

Jeopardy Q 1 Q 6 Q 11 Q 16 Q 21 Q 2 Q 7 Q 12 Q 17 Q 22 Q 3 Q 8 Q 13

Properties of Real Numbers CommutativeAssociativeDistributive Identity + × Inverse + ×

Exit a Customer Chapter 8. Exit a Customer 8-2 Objectives Perform exit summary process consisting of the following steps: Review service records Close.

FACTORING ax2 + bx + c Think “unfoil” Work down, Show all steps.

Year 6 mental test 5 second questions

Year 6 mental test 10 second questions

REVIEW: Arthropod ID. 1. Name the subphylum. 2. Name the subphylum. 3. Name the order.

PP Test Review Sections 6-1 to 6-6

EU market situation for eggs and poultry Management Committee 20 October 2011.

Bellwork Do the following problem on a ½ sheet of paper and turn in.

2 |SharePoint Saturday New York City

Green Eggs and Ham.

IP Multicast Information management 2 Groep T Leuven – Information department 2/14 Agenda •Why IP Multicast ? •Multicast fundamentals •Intradomain.

Copyright © 2012, Elsevier Inc. All rights Reserved. 1 Chapter 7 Modeling Structure with Blocks.

1 RA III - Regional Training Seminar on CLIMAT&CLIMAT TEMP Reporting Buenos Aires, Argentina, 25 – 27 October 2006 Status of observing programmes in RA.

Factor P 16 8(8-5ab) 4(d² + 4) 3rs(2r – s) 15cd(1 + 2cd) 8(4a² + 3b²)

Basel-ICU-Journal Challenge18/20/ Basel-ICU-Journal Challenge8/20/2014.

© 2012 National Heart Foundation of Australia. Slide 2.

Adding Up In Chunks.

Universität Kaiserslautern Institut für Technologie und Arbeit / Institute of Technology and Work 1 Q16) Willingness to participate in a follow-up case.

Understanding Generalist Practice, 5e, Kirst-Ashman/Hull

Model and Relationships 6 M 1 M M M M M M M M M M M M M M M M

25 seconds left…...

Subtraction: Adding UP

Januar MDMDFSSMDMDFSSS

Analyzing Genes and Genomes

We will resume in: 25 Minutes.

©Brooks/Cole, 2001 Chapter 12 Derived Types-- Enumerated, Structure and Union.

Essential Cell Biology

Planning breeding programs for impact

Intracellular Compartments and Transport

PSSA Preparation.

Essential Cell Biology

Immunobiology: The Immune System in Health & Disease Sixth Edition

1 Chapter 13 Nuclear Magnetic Resonance Spectroscopy.

Energy Generation in Mitochondria and Chlorplasts

Murach’s OS/390 and z/OS JCLChapter 16, Slide 1 © 2002, Mike Murach & Associates, Inc.

1 QTL mapping in mice Lecture 10, Statistics 246 February 24, 2004.

Karl W Broman Department of Biostatistics Johns Hopkins University Gene mapping in model organisms.

From QTL to QTG: Are we getting closer? Sagiv Shifman and Ariel Darvasi The Hebrew University of Jerusalem.

Experimental Design and Data Structure Supplement to Lecture 8 Fall

Quantitative Genetics

QTL Mapping in Heterogeneous Stocks Talbot et al, Nature Genetics (1999) 21: Mott et at, PNAS (2000) 97:

The genomes of recombinant inbred lines

What is a QTL? Quantitative trait locus (loci) Region of chromosome that contributes to variation in a quantitative trait Generally used to study “complex.

upstream vs. ORF binding and gene expression?

Gene mapping in mice Karl W Broman Department of Biostatistics

The breakpoint process on RI chromosomes

Statistical issues in QTL mapping in mice

The genomes of recombinant inbred lines

Presentation transcript:

The genetic dissection of complex traits

Goal Identify genes that contribute to complex human diseases Complex disease = one that’s hard to figure out Many genes + environment + other QTL = quantitative trait locus Genomic region that affects a quantitative trait

The genetic approach Start with the trait; find genes the influence it. Allelic differences at the genes result in phenotypic differences. Value: Need not know anything in advance. Goal Understanding the disease etiology (e.g., pathways) Identify possible drug targets

Approaches Experimental crosses in model organisms Mutagenesis in model organisms Linkage analysis in human pedigrees A few large pedigrees Many small families (e.g., sibling pairs) Association analysis in human populations Isolated populations vs. outbred populations Candidate genes vs. whole genome

Inbred mice

Advantages of the mouse Small and cheap Inbred lines Disease has simpler genetic architecture Controlled environment Large, controlled crosses Experimental interventions Knock-outs and knock-ins

Disadvantages of the mouse Is the model really at all like the corresponding human disease? Still not as small (or as fast at breeding) as a fly.

The mouse as a model Same genes? Similar complexity? The genes involved in a phenotype in the mouse may also be involved in similar phenotypes in the human. Similar complexity? The complexity of the etiology underlying a mouse phenotype provides some indication of the complexity of similar human phenotypes. Transfer of statistical methods. The statistical methods developed for gene mapping in the mouse serve as a basis for similar methods applicable in direct human studies.

Mutagenesis Advantages Disadvantages Can find things Genes at least indicate a pathway Disadvantages Need cheap phenotype screen Mutations must have large effect Genes found may not be relevant Still need to map the mutation Mutations with recessive effects are hard to see

The intercross

The data Phenotypes, yi Genotypes, xij = AA/AB/BB, at genetic markers A genetic map, giving the locations of the markers.

Phenotypes 133 females (NOD  B6)  (NOD  B6)

NOD

C57BL/6

Agouti coat

Genetic map

Genotype data

Statistical structure Missing data: markers  QTL Model selection: genotypes  phenotype

The simplest method “Marker regression” Consider a single marker Split mice into groups according to their genotype at a marker Do an ANOVA (or t-test) Repeat for each marker

LOD curves

Chr 9 and 11

Epistasis

Back to the strategy First: QTL mapping results in a 10-20 cM region Next step: create congenics Then: subcongenics Then: test candidates Finally: prove a gene is the gene

“Modern” approaches Recombinant inbred lines (RILs) Advanced intercross lines (AILs) Heterogeneous stock (HS) The Collaborative Cross (CC) Partial advanced intercross (PAI) Association mapping across mouse strains Combining crosses, accounting for the history of the inbred strains Gene expression microarrays

Recombinant inbred lines

RI lines Advantages Disadvantages Each strain is a eternal resource. Only need to genotype once. Reduce individual variation by phenotyping multiple individuals from each strain. Study multiple phenotypes on the same genotype. Greater mapping precision. Disadvantages Time and expense. Available panels are generally too small (10-30 lines). Can learn only about 2 particular alleles. All individuals homozygous.

The RIX design

The “Collaborative Cross”

Genome of an 8-way RI

Heterogeneous stock McClearn et al. (1970) Mott et al. (2000); Mott and Flint (2002) Start with 8 inbred strains. Randomly breed 40 pairs. Repeat the random breeding of 40 pairs for each of ~60 generations (30 years). The genealogy (and protocol) is not completely known. Note: AILs are similar, but start with 2 strains and don’t go as many generations

Heterogeneous stock

“Modern” approaches Recombinant inbred lines (RILs) Advanced intercross lines (AILs) Heterogeneous stock (HS) The Collaborative Cross (CC) Partial advanced intercross (PAI) Association mapping across mouse strains Combining crosses, accounting for the history of the inbred strains

Towards proof Gene has nonsynonymous mutation Gene shows difference in expression between parental strains Expression variation correlated with QTL genotype RNA interference Knock out/knock in

Summary Experimental crosses in model organisms Cheap, fast, powerful, can do direct experiments The model may relevant to the human disease Standard QTL mapping results in large regions with many genes Fine mapping Congenics, AILs, RILs, HS, PAI, association mapping Expression differences Proof RNA interference Knock outs/knock ins