Presentation is loading. Please wait.

Presentation is loading. Please wait.

Kaitlyn Cook Carleton College Northfield Undergraduate Mathematics Symposium October 7, 2014 A METHOD FOR COMBINING FAMILY-BASED RARE VARIANT TESTS OF.

Published byBrandon Townsend Modified over 8 years ago

Similar presentations

Presentation on theme: "Kaitlyn Cook Carleton College Northfield Undergraduate Mathematics Symposium October 7, 2014 A METHOD FOR COMBINING FAMILY-BASED RARE VARIANT TESTS OF."— Presentation transcript:

1 Kaitlyn Cook Carleton College Northfield Undergraduate Mathematics Symposium October 7, 2014 A METHOD FOR COMBINING FAMILY-BASED RARE VARIANT TESTS OF ASSOCIATION

2  Genetic information stored in DNA  Coded as a sequence of Adenines, Thymines, Guanines, and Cytosines  Organized into chromosomes  Gene…a collection of nucleotides  Allele…a version of a gene AN INTRODUCTION TO GENETICS A A T C G G A T T C T G G A C C C C G C G C G A T T A A T C G G A T T C T G G A C A C C T C G C G A T T Gene 1Gene 2

3  Genetic information stored in DNA  Coded as a sequence of Adenines, Thymines, Guanines, and Cytosines  Organized into chromosomes  Homozygous…having two copies of the same allele  Heterozygous…having copies of two different alleles AN INTRODUCTION TO GENETICS A A T C G G A T T C T G G A C C C C G C G C G A T T A A T C G G A T T C T G G A C A C C T C G C G A T T HomozygousHeterozygous

4  Genetic information stored in DNA  Coded as a sequence of Adenines, Thymines, Guanines, and Cytosines  Organized into chromosomes  Single Nucleotide Polymorphism (SNP)  Minor allele  Single Nucleotide Variant (SNV) AN INTRODUCTION TO GENETICS A A T C G G A T T C T G G A C C C C G C G C G A T T A A T C G G A T T C T G G A C A C C T C G C G A T T

5  Possible that these rare variants are associated with complex diseases  Either risk-increasing or risk-reducing  Want to be able to detect these sorts of associations  One problem: POWER  Two solutions:  Gene-based tests of association  Use family-based study designs RARE VARIANTS

6  Rather than analyzing individual SNVs, we can collapse them on a gene level  Instead of testing whether one SNV is associated with a disease phenotype, we test whether at least one SNV in a given gene is associated  Aggregates the signal and increases power  Two ways of collapsing  Burden tests  Variance component tests GENE-BASED ASSOCIATION TESTS

7  Tests perform optimally in different circumstances  Burden tests: all the SNVs are risk-increasing or risk-reducing  Variance component tests: mixture of risk-increasing or risk-reducing  Power depends on type of test and genetic architecture  Drawback: picking the “right” test requires knowing genetic architecture beforehand  Picking the “wrong” test could lead to substantial drop in power GENE-BASED ASSOCIATION TESTS

8  Recruit families into the study  Genotype all possible members of each family  Construct pedigrees  Genetic inheritance means that rare variants are aggregated in the families  Increased prevalence means increased power FAMILY-BASED STUDY DESIGN

9  If different tests perform better under different scenarios, can we somehow combine information from these tests to improve power?  Develop a flexible method that:  Can combine any number and type of family-based tests of association  Increase statistical power and robustness  Maintains type I error OUR FOCUS

10  Generate a vector of test statistics, Q(0) = (Q 1,…, Q k )  Permute the phenotype m times, finding Q(1), …, Q(m)  Convert test statistic vectors Q(i) into p-value vectors p(i) by determining each test statistic’s relative rank among the m permutations  Combine p-values within each permutation into a single summary statistic S(i)  Compute the significance level of S(0) by finding the percentage of S(i) which are greater than S(0), out of m. COMBINATION METHOD

11  Typical permutation approaches do not work in family setting  Fit the data to a random effects model  Fixed effects for covariates  Random effects for kinship  Permuted the residuals PERMUTATION STRATEGY

12  Genetic Analysis Workshop 19  Human sequence data  Sequence information for 959 individuals in 20 families  Phenotype of interest: Systolic and diastolic blood pressure  Real and simulated phenotypes provided  200 replicates of the simulated phenotype  Used to calculate power/type I error DATA USED

13 STATISTICAL TESTS USED

14  Type I error conserved across both individual and combined family-based tests  Power was generally low for all tests used  Combined test had empirical power in the same range as the individual tests  Choice of variant weighting system had substantial impact on empirical power  Combined test more robust to differences in the characteristics of individual genes RESULTS

15  Warm colors: SKAT weights  Cool colors: WSS weights  Black: combined test approach

16  Working to determine the optimal type or number of tests to include in the combined test statistic  Reducing correlation between the tests being combined  Incorporation of further biological information into the test statistic NEXT STEPS

17  NIH/NHGRI: R15HG006915  NSF/MCB: 1330813  Derkach A, Lawless J, Sun L (2012) Robust and Powerful Tests of Rare Variants Using Fisher’s Method to Combine Evidence of Association From Two or More Complementary Tests. Genet Epidemiol 00:1-12.  Greco B, Hainline A, Liu K, Zawistowski M, Tintle N General approaches for combining multiple rare variant association tests provide improved power across a wider range of genetic architecture (in progress) ACKNOWLEDGEMENTS & REFERENCES

Download ppt "Kaitlyn Cook Carleton College Northfield Undergraduate Mathematics Symposium October 7, 2014 A METHOD FOR COMBINING FAMILY-BASED RARE VARIANT TESTS OF."

Similar presentations

Statistical methods for genetic association studies

Statistical methods for genetic association studies
Linkage and Genetic Mapping

Linkage and Genetic Mapping
Lecture 39 Prof Duncan Shaw. Meiosis and Recombination Chromosomes pair upDNA replication Chiasmata form Recombination 1st cell division 2nd cell divisionGametes.

Lecture 39 Prof Duncan Shaw. Meiosis and Recombination Chromosomes pair upDNA replication Chiasmata form Recombination 1st cell division 2nd cell divisionGametes.
Genetic research designs in the real world Vishwajit L Nimgaonkar MD, PhD University of Pittsburgh

Genetic research designs in the real world Vishwajit L Nimgaonkar MD, PhD University of Pittsburgh
What is Heredity?.

What is Heredity?.
HEREDITY CHAPTER 4. You have Characteristics or traits. Acquired Traits —Reading Skills Inherited Traits —eye color.

HEREDITY CHAPTER 4. You have Characteristics or traits. Acquired Traits —Reading Skills Inherited Traits —eye color.
MALD Mapping by Admixture Linkage Disequilibrium.

MALD Mapping by Admixture Linkage Disequilibrium.
Introduction to Bioinformatics Yana Kortsarts Bob Morris.

Introduction to Bioinformatics Yana Kortsarts Bob Morris.
More Powerful Genome-wide Association Methods for Case-control Data Robert C. Elston, PhD Case Western Reserve University Cleveland Ohio.

More Powerful Genome-wide Association Methods for Case-control Data Robert C. Elston, PhD Case Western Reserve University Cleveland Ohio.
Introduction to Linkage Analysis March 2002. 3 Stages of Genetic Mapping Are there genes influencing this trait? Epidemiological studies Where are those.

Introduction to Linkage Analysis March Stages of Genetic Mapping Are there genes influencing this trait? Epidemiological studies Where are those.
Deoxyribonucleic Acid

Deoxyribonucleic Acid
Robust and powerful sibpair test for rare variant association

Robust and powerful sibpair test for rare variant association
Supervisor: Yihong Jennifer Tan Eric Gähwiler Karim Hamidi

Supervisor: Yihong Jennifer Tan Eric Gähwiler Karim Hamidi
Introducing genes Genetics is the study of inherited traits and their variations. Genetics is not genealogy! Genealogy is the study of family relationships.

Introducing genes Genetics is the study of inherited traits and their variations. Genetics is not genealogy! Genealogy is the study of family relationships.
Chuanyu Sun Paul VanRaden National Association of Animal breeders, USA Animal Improvement Programs Laboratory, USA Increasing long term response by selecting.

Chuanyu Sun Paul VanRaden National Association of Animal breeders, USA Animal Improvement Programs Laboratory, USA Increasing long term response by selecting.
DNA What is it? And what does it do?. What two things did you not know, had forgotten or felt were important?

DNA What is it? And what does it do?. What two things did you not know, had forgotten or felt were important?
IUMSP Institut universitaire de médecine sociale et préventive, Lausanne Exploring the association of the CYP1A1- CYP1A2 locus with blood pressure in CoLaus.

IUMSP Institut universitaire de médecine sociale et préventive, Lausanne Exploring the association of the CYP1A1- CYP1A2 locus with blood pressure in CoLaus.
Inquiry: How is DNA used to store and transmit cell information?

Inquiry: How is DNA used to store and transmit cell information?
Introduction to BST775: Statistical Methods for Genetic Analysis I Course master: Degui Zhi, Ph.D. Assistant professor Section on Statistical Genetics.

Introduction to BST775: Statistical Methods for Genetic Analysis I Course master: Degui Zhi, Ph.D. Assistant professor Section on Statistical Genetics.
GENETICS AND HEREDITY Chapter 5. Genetics and Heredity Heredity- the passing of traits from parents to offspring Genetics- the study of how traits are.

GENETICS AND HEREDITY Chapter 5. Genetics and Heredity Heredity- the passing of traits from parents to offspring Genetics- the study of how traits are.

Similar presentations

Ads by Google