Presentation is loading. Please wait.

Presentation is loading. Please wait.

A Genomewide Admixture Map for Latino Populations

Published byByron Houston Modified over 5 years ago

Similar presentations

Presentation on theme: "A Genomewide Admixture Map for Latino Populations"— Presentation transcript:

1 A Genomewide Admixture Map for Latino Populations
Alkes L. Price, Nick Patterson, Fuli Yu, David R. Cox, Alicja Waliszewska, Gavin J. McDonald, Arti Tandon, Christine Schirmer, Julie Neubauer, Gabriel Bedoya, Constanza Duque, Alberto Villegas, Maria Catira Bortolini, Francisco M. Salzano, Carla Gallo, Guido Mazzotti, Marcela Tello-Ruiz, Laura Riba, Carlos A. Aguilar-Salinas, Samuel Canizales-Quinteros, Marta Menjivar, William Klitz, Brian Henderson, Christopher A. Haiman, Cheryl Winkler, Teresa Tusie-Luna, Andrés Ruiz-Linares, David Reich  The American Journal of Human Genetics  Volume 80, Issue 6, Pages (June 2007) DOI: /518313 Copyright © 2007 The American Society of Human Genetics Terms and Conditions

2 Figure 1 Top two axes of variation of Latinos, Europeans, Native Americans, and Africans. Coordinates along the top two axes of variation (eigenvectors) are dimensionless but roughly correspond to percentage of Native American ancestry for the first axis and percentage of African ancestry for the second axis. LA Latino (n=38), MEX=Mexican (n=37), BRA=Brazilian (n=37), COL=Colombian (n=30), EUR=European (n=57), NAM=Native North American (n=147), SAM=Native South American (n=95), and AFR=African (n=28). The American Journal of Human Genetics  , DOI: ( /518313) Copyright © 2007 The American Society of Human Genetics Terms and Conditions

3 Figure 2 Histogram of percentage of Native American ancestry in samples from four Latino populations The American Journal of Human Genetics  , DOI: ( /518313) Copyright © 2007 The American Society of Human Genetics Terms and Conditions

4 Figure 3 Number of samples needed to detect a disease locus with use of admixture mapping. For each population, this quantity is computed under the ideal assumption of perfect information about ancestry, as a function of the relative disease risk conferred by each copy of a particular ancestry at the disease locus. To convert from this to the actual number of samples required for detecting a disease locus with the map, it is necessary to multiply by 1/ravg; that is, the reciprocal of the information extraction at the locus (estimated in fig. 5). The American Journal of Human Genetics  , DOI: ( /518313) Copyright © 2007 The American Society of Human Genetics Terms and Conditions

5 Figure 4 European and Native American allele frequencies for the 1,649 markers in the final map, which are based on the results of validation genotyping. The American Journal of Human Genetics  , DOI: ( /518313) Copyright © 2007 The American Society of Human Genetics Terms and Conditions

6 Figure 5 Informativeness of the Latino admixture map as a percentage of the maximum, assessed empirically by the ravg statistic in LA Latinos (dark blue) and in Colombians and Brazilians (light blue). The X-axis gives genetic position, with each of 1,649 markers shown using hash marks. Informativeness of the map is slightly less at the edge of chromosomes, since we cannot use markers from both sides to infer ancestry. For comparison, in gray, we also show the power of our 1st-generation African American admixture map (1,166 markers used in a multiple sclerosis study6). chr=Chromosome. The American Journal of Human Genetics  , DOI: ( /518313) Copyright © 2007 The American Society of Human Genetics Terms and Conditions

Download ppt "A Genomewide Admixture Map for Latino Populations"

Similar presentations

High-density admixture mapping to find genes for complex disease David Reich Harvard Medical School Department of Genetics Broad Institute July 13, 2004.

High-density admixture mapping to find genes for complex disease David Reich Harvard Medical School Department of Genetics Broad Institute July 13, 2004.
Previous Estimates of Mitochondrial DNA Mutation Level Variance Did Not Account for Sampling Error: Comparing the mtDNA Genetic Bottleneck in Mice and.

Previous Estimates of Mitochondrial DNA Mutation Level Variance Did Not Account for Sampling Error: Comparing the mtDNA Genetic Bottleneck in Mice and.
Connexin Mutations in Skin Disease and Hearing Loss David P. Kelsell, Wei-Li Di, Mark J. Houseman The American Journal of Human Genetics Volume 68, Issue.

Connexin Mutations in Skin Disease and Hearing Loss David P. Kelsell, Wei-Li Di, Mark J. Houseman The American Journal of Human Genetics Volume 68, Issue.
Functional Analysis of the Neurofibromatosis Type 2 Protein by Means of Disease- Causing Point Mutations Renee P. Stokowski, David R. Cox The American.

Functional Analysis of the Neurofibromatosis Type 2 Protein by Means of Disease- Causing Point Mutations Renee P. Stokowski, David R. Cox The American.
Peopling of Sahul: mtDNA Variation in Aboriginal Australian and Papua New Guinean Populations Alan J. Redd, Mark Stoneking The American Journal of Human.

Peopling of Sahul: mtDNA Variation in Aboriginal Australian and Papua New Guinean Populations Alan J. Redd, Mark Stoneking The American Journal of Human.
Understanding human admixture, and association mapping in admixed populations. Simon Myers.

Understanding human admixture, and association mapping in admixed populations. Simon Myers.
Population genetics and whole- genome disease association studies Alkes L. Price Harvard Medical School & Broad Institute of MIT and Harvard April 5, 2007.

Population genetics and whole- genome disease association studies Alkes L. Price Harvard Medical School & Broad Institute of MIT and Harvard April 5, 2007.
Autosomal, mtDNA, and Y-Chromosome Diversity in Amerinds: Pre- and Post- Columbian Patterns of Gene Flow in South America  Natalia R. Mesa, María C. Mondragón,

Autosomal, mtDNA, and Y-Chromosome Diversity in Amerinds: Pre- and Post- Columbian Patterns of Gene Flow in South America  Natalia R. Mesa, María C. Mondragón,
Cosmopolitan and ethnic-specific replication of genetic risk factors for asthma in 2 Latino populations  Joshua M. Galanter, MD, Dara Torgerson, PhD,

Cosmopolitan and ethnic-specific replication of genetic risk factors for asthma in 2 Latino populations  Joshua M. Galanter, MD, Dara Torgerson, PhD,
Pharmacogenetics: Implications of race and ethnicity on defining genetic profiles for personalized medicine  Victor E. Ortega, MD, Deborah A. Meyers,

Pharmacogenetics: Implications of race and ethnicity on defining genetic profiles for personalized medicine  Victor E. Ortega, MD, Deborah A. Meyers,
Katarzyna Bryc, Eric Y. Durand, J

Katarzyna Bryc, Eric Y. Durand, J
A Genomewide Admixture Mapping Panel for Hispanic/Latino Populations

A Genomewide Admixture Mapping Panel for Hispanic/Latino Populations
Combining Evidence of Natural Selection with Association Analysis Increases Power to Detect Malaria-Resistance Variants  George Ayodo, Alkes L. Price,

Combining Evidence of Natural Selection with Association Analysis Increases Power to Detect Malaria-Resistance Variants  George Ayodo, Alkes L. Price,
Michael W. Smith, Nick Patterson, James A. Lautenberger, Ann L

Michael W. Smith, Nick Patterson, James A. Lautenberger, Ann L
Genome-wide Ancestry and Demographic History of African-Descendant Maroon Communities from French Guiana and Suriname  Cesar Fortes-Lima, Antoine Gessain,

Genome-wide Ancestry and Demographic History of African-Descendant Maroon Communities from French Guiana and Suriname  Cesar Fortes-Lima, Antoine Gessain,
Genome-wide Comparison of African-Ancestry Populations from CARe and Other Cohorts Reveals Signals of Natural Selection  Gaurav Bhatia, Nick Patterson,

Genome-wide Comparison of African-Ancestry Populations from CARe and Other Cohorts Reveals Signals of Natural Selection  Gaurav Bhatia, Nick Patterson,
Chao Tian, David A. Hinds, Russell Shigeta, Sharon G

Chao Tian, David A. Hinds, Russell Shigeta, Sharon G
Katarzyna Bryc, Eric Y. Durand, J

Katarzyna Bryc, Eric Y. Durand, J
Model-Free Linkage Analysis with Covariates Confirms Linkage of Prostate Cancer to Chromosomes 1 and 4  Katrina A.B. Goddard, John S. Witte, Brian K.

Model-Free Linkage Analysis with Covariates Confirms Linkage of Prostate Cancer to Chromosomes 1 and 4  Katrina A.B. Goddard, John S. Witte, Brian K.
Long-Range LD Can Confound Genome Scans in Admixed Populations

Long-Range LD Can Confound Genome Scans in Admixed Populations

Similar presentations

Ads by Google