33 results on '"Byrnes, Jake"'
Search Results
2. Genetic Genealogy in the Genomic Era
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Byrnes, Jake K., primary and Underhill, Peter A., additional
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- 2023
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3. Ancestry inference using reference labeled clusters of haplotypes
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Wang, Yong, Song, Shiya, Schraiber, Joshua G., Sedghifar, Alisa, Byrnes, Jake K., Turissini, David A., Hong, Eurie L., Ball, Catherine A., and Noto, Keith
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- 2021
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- View/download PDF
4. The history and geographic distribution of a KCNQ1 atrial fibrillation risk allele
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Hateley, Shannon, Lopez-Izquierdo, Angelica, Jou, Chuanchau J., Cho, Scott, Schraiber, Joshua G., Song, Shiya, Maguire, Colin T., Torres, Natalia, Riedel, Michael, Bowles, Neil E., Arrington, Cammon B., Kennedy, Brett J., Etheridge, Susan P., Lai, Shuping, Pribble, Chase, Meyers, Lindsay, Lundahl, Derek, Byrnes, Jake, Granka, Julie M., Kauffman, Christopher A., Lemmon, Gordon, Boyden, Steven, Scott Watkins, W., Karren, Mary Anne, Knight, Stacey, Brent Muhlestein, J., Carlquist, John F., Anderson, Jeffrey L., Chahine, Kenneth G., Shah, Khushi U., Ball, Catherine A., Benjamin, Ivor J., Yandell, Mark, and Tristani-Firouzi, Martin
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- 2021
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5. Reconstructing Native American Migrations from Whole-genome and Whole-exome Data
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Gravel, Simon, Zakharia, Fouad, Moreno-Estrada, Andres, Byrnes, Jake K, Muzzio, Marina, Rodriguez-Flores, Juan L., Kenny, Eimear E., Gignoux, Christopher R., Maples, Brian K., Guiblet, Wilfried, Dutil, Julie, Via, Marc, Sandoval, Karla, Bedoya, Gabriel, Oleksyk, Taras K, Ruiz-Linares, Andres, Burchard, Esteban G, Martinez-Cruzado, Juan Carlos, Bustamante, Carlos D., and Project, The 1000 Genomes
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Quantitative Biology - Populations and Evolution ,Quantitative Biology - Genomics ,92D25 - Abstract
There is great scientific and popular interest in understanding the genetic history of populations in the Americas. We wish to understand when different regions of the continent were inhabited, where settlers came from, and how current inhabitants relate genetically to earlier populations. Recent studies unraveled parts of the genetic history of the continent using genotyping arrays and uniparental markers. The 1000 Genomes Project provides a unique opportunity for improving our understanding of population genetic history by providing over a hundred sequenced low coverage genomes and exomes from Colombian (CLM), Mexican-American (MXL), and Puerto Rican (PUR) populations. Here, we explore the genomic contributions of African, European, and Native American ancestry to these populations. Estimated Native American ancestry is 48% in MXL, 25% in CLM, and 13% in PUR. Native American ancestry in PUR is most closely related to populations surrounding the Orinoco River basin, confirming the Southern America ancestry of the Ta\'ino people of the Caribbean. We present new methods to estimate the allele frequencies in the Native American fraction of the populations, and model their distribution using a demographic model for three ancestral Native American populations. These ancestral populations likely split in close succession: the most likely scenario, based on a peopling of the Americas 16 thousand years ago (kya), supports that the MXL Ancestors split 12.2kya, with a subsequent split of the ancestors to CLM and PUR 11.7kya. The model also features effective populations of 62,000 in Mexico, 8,700 in Colombia, and 1,900 in Puerto Rico. Modeling Identity-by-descent and ancestry tract length, we show that post-contact populations differ markedly in their effective sizes and migration patterns, with Puerto Rico showing the smallest effective size and the earlier migration from Europe., Comment: 30 pages, inludes supplement. v2 contains clarifications, extra analyses, and a change in the language classification scheme used
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- 2013
6. Reconstructing the Population Genetic History of the Caribbean
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Moreno-Estrada, Andres, Gravel, Simon, Zakharia, Fouad, McCauley, Jacob L., Byrnes, Jake K., Gignoux, Christopher R., Ortiz-Tello, Patricia A., Martinez, Ricardo J., Hedges, Dale J., Morris, Richard W., Eng, Celeste, Sandoval, Karla, Acevedo-Acevedo, Suehelay, Martinez-Cruzado, Juan Carlos, Norman, Paul J., Layrisse, Zulay, Parham, Peter, Burchard, Esteban Gonzalez, Cuccaro, Michael L., Martin, Eden R., and Bustamante, Carlos D.
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Quantitative Biology - Populations and Evolution ,Quantitative Biology - Genomics - Abstract
The Caribbean basin is home to some of the most complex interactions in recent history among previously diverged human populations. Here, by making use of genome-wide SNP array data, we characterize ancestral components of Caribbean populations on a sub-continental level and unveil fine-scale patterns of population structure distinguishing insular from mainland Caribbean populations as well as from other Hispanic/Latino groups. We provide genetic evidence for an inland South American origin of the Native American component in island populations and for extensive pre-Columbian gene flow across the Caribbean basin. The Caribbean-derived European component shows significant differentiation from parental Iberian populations, presumably as a result of founder effects during the colonization of the New World. Based on demographic models, we reconstruct the complex population history of the Caribbean since the onset of continental admixture. We find that insular populations are best modeled as mixtures absorbing two pulses of African migrants, coinciding with early and maximum activity stages of the transatlantic slave trade. These two pulses appear to have originated in different regions within West Africa, imprinting two distinguishable signatures in present day Afro-Caribbean genomes and shedding light on the genetic impact of the dynamics occurring during the slave trade in the Caribbean., Comment: 26 pages, 6 figures, and supporting information
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- 2013
7. Population genetic inference from personal genome data: impact of ancestry and admixture on human genomic variation.
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Kidd, Jeffrey M, Gravel, Simon, Byrnes, Jake, Moreno-Estrada, Andres, Musharoff, Shaila, Bryc, Katarzyna, Degenhardt, Jeremiah D, Brisbin, Abra, Sheth, Vrunda, Chen, Rong, McLaughlin, Stephen F, Peckham, Heather E, Omberg, Larsson, Bormann Chung, Christina A, Stanley, Sarah, Pearlstein, Kevin, Levandowsky, Elizabeth, Acevedo-Acevedo, Suehelay, Auton, Adam, Keinan, Alon, Acuña-Alonzo, Victor, Barquera-Lozano, Rodrigo, Canizales-Quinteros, Samuel, Eng, Celeste, Burchard, Esteban G, Russell, Archie, Reynolds, Andy, Clark, Andrew G, Reese, Martin G, Lincoln, Stephen E, Butte, Atul J, De La Vega, Francisco M, and Bustamante, Carlos D
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Humans ,Genetics ,Population ,Haplotypes ,Heterozygote ,Polymorphism ,Single Nucleotide ,Genome ,Human ,Continental Population Groups ,Population ,Racial Groups ,Human Genome ,Genetics ,Biological Sciences ,Medical and Health Sciences ,Genetics & Heredity - Abstract
Full sequencing of individual human genomes has greatly expanded our understanding of human genetic variation and population history. Here, we present a systematic analysis of 50 human genomes from 11 diverse global populations sequenced at high coverage. Our sample includes 12 individuals who have admixed ancestry and who have varying degrees of recent (within the last 500 years) African, Native American, and European ancestry. We found over 21 million single-nucleotide variants that contribute to a 1.75-fold range in nucleotide heterozygosity across diverse human genomes. This heterozygosity ranged from a high of one heterozygous site per kilobase in west African genomes to a low of 0.57 heterozygous sites per kilobase in segments inferred to have diploid Native American ancestry from the genomes of Mexican and Puerto Rican individuals. We show evidence of all three continental ancestries in the genomes of Mexican, Puerto Rican, and African American populations, and the genome-wide statistics are highly consistent across individuals from a population once ancestry proportions have been accounted for. Using a generalized linear model, we identified subtle variations across populations in the proportion of neutral versus deleterious variation and found that genome-wide statistics vary in admixed populations even once ancestry proportions have been factored in. We further infer that multiple periods of gene flow shaped the diversity of admixed populations in the Americas-70% of the European ancestry in today's African Americans dates back to European gene flow happening only 7-8 generations ago.
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- 2012
8. Genomic ancestry of North Africans supports back-to-Africa migrations.
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Henn, Brenna M, Botigué, Laura R, Gravel, Simon, Wang, Wei, Brisbin, Abra, Byrnes, Jake K, Fadhlaoui-Zid, Karima, Zalloua, Pierre A, Moreno-Estrada, Andres, Bertranpetit, Jaume, Bustamante, Carlos D, and Comas, David
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Humans ,DNA ,Mitochondrial ,Genomics ,Population Dynamics ,Emigration and Immigration ,Gene Pool ,Genotype ,Haplotypes ,Polymorphism ,Single Nucleotide ,History ,Ancient ,African Continental Ancestry Group ,European Continental Ancestry Group ,Population ,Africa ,Northern ,Morocco ,Africa South of the Sahara ,Middle East ,Europe ,Gene Flow ,Genetic Variation ,Egypt ,Ancient ,Genetics ,Human Genome ,Clinical Research ,Developmental Biology - Abstract
North African populations are distinct from sub-Saharan Africans based on cultural, linguistic, and phenotypic attributes; however, the time and the extent of genetic divergence between populations north and south of the Sahara remain poorly understood. Here, we interrogate the multilayered history of North Africa by characterizing the effect of hypothesized migrations from the Near East, Europe, and sub-Saharan Africa on current genetic diversity. We present dense, genome-wide SNP genotyping array data (730,000 sites) from seven North African populations, spanning from Egypt to Morocco, and one Spanish population. We identify a gradient of likely autochthonous Maghrebi ancestry that increases from east to west across northern Africa; this ancestry is likely derived from "back-to-Africa" gene flow more than 12,000 years ago (ya), prior to the Holocene. The indigenous North African ancestry is more frequent in populations with historical Berber ethnicity. In most North African populations we also see substantial shared ancestry with the Near East, and to a lesser extent sub-Saharan Africa and Europe. To estimate the time of migration from sub-Saharan populations into North Africa, we implement a maximum likelihood dating method based on the distribution of migrant tracts. In order to first identify migrant tracts, we assign local ancestry to haplotypes using a novel, principal component-based analysis of three ancestral populations. We estimate that a migration of western African origin into Morocco began about 40 generations ago (approximately 1,200 ya); a migration of individuals with Nilotic ancestry into Egypt occurred about 25 generations ago (approximately 750 ya). Our genomic data reveal an extraordinarily complex history of migrations, involving at least five ancestral populations, into North Africa.
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- 2012
9. Phased whole-genome genetic risk in a family quartet using a major allele reference sequence.
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Dewey, Frederick E, Chen, Rong, Cordero, Sergio P, Ormond, Kelly E, Caleshu, Colleen, Karczewski, Konrad J, Whirl-Carrillo, Michelle, Wheeler, Matthew T, Dudley, Joel T, Byrnes, Jake K, Cornejo, Omar E, Knowles, Joshua W, Woon, Mark, Sangkuhl, Katrin, Gong, Li, Thorn, Caroline F, Hebert, Joan M, Capriotti, Emidio, David, Sean P, Pavlovic, Aleksandra, West, Anne, Thakuria, Joseph V, Ball, Madeleine P, Zaranek, Alexander W, Rehm, Heidi L, Church, George M, West, John S, Bustamante, Carlos D, Snyder, Michael, Altman, Russ B, Klein, Teri E, Butte, Atul J, and Ashley, Euan A
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Humans ,Thrombophilia ,Genetic Predisposition to Disease ,Risk Assessment ,Pedigree ,Sequence Alignment ,Sequence Analysis ,DNA ,DNA Mutational Analysis ,Base Sequence ,Genotype ,Haplotypes ,Alleles ,Genes ,Synthetic ,Genome ,Human ,Reference Standards ,Female ,Male ,Genetic Variation ,Genome-Wide Association Study ,Biotechnology ,Genetics ,Human Genome ,2.1 Biological and endogenous factors ,Generic health relevance ,Developmental Biology - Abstract
Whole-genome sequencing harbors unprecedented potential for characterization of individual and family genetic variation. Here, we develop a novel synthetic human reference sequence that is ethnically concordant and use it for the analysis of genomes from a nuclear family with history of familial thrombophilia. We demonstrate that the use of the major allele reference sequence results in improved genotype accuracy for disease-associated variant loci. We infer recombination sites to the lowest median resolution demonstrated to date (< 1,000 base pairs). We use family inheritance state analysis to control sequencing error and inform family-wide haplotype phasing, allowing quantification of genome-wide compound heterozygosity. We develop a sequence-based methodology for Human Leukocyte Antigen typing that contributes to disease risk prediction. Finally, we advance methods for analysis of disease and pharmacogenomic risk across the coding and non-coding genome that incorporate phased variant data. We show these methods are capable of identifying multigenic risk for inherited thrombophilia and informing the appropriate pharmacological therapy. These ethnicity-specific, family-based approaches to interpretation of genetic variation are emblematic of the next generation of genetic risk assessment using whole-genome sequencing.
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- 2011
10. Codon-Usage Bias versus Gene Conversion in the Evolution of Yeast Duplicate Genes
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Lin, Yeong-Shin, Byrnes, Jake K., Hwang, Jenn-Kang, and Li, Wen-Hsiung
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- 2006
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11. Role of Positive Selection in the Retention of Duplicate Genes in Mammalian Genomes
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Shiu, Shin-Han, Byrnes, Jake K., Pan, Runsun, Zhang, Peng, and Li, Wen-Hsiung
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- 2006
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12. A global reference for human genetic variation
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Altshuler, David M., (Co-Chair), Durbin, Richard M., (Co-Chair, Principal Investigator), Donnelly, Peter, Green, Eric D., Nickerson, Deborah A., Boerwinkle, Eric, Doddapaneni, Harsha, Han, Yi, Korchina, Viktoriya, Kovar, Christie, Lee, Sandra, Muzny, Donna, Reid, Jeffrey G., Zhu, Yiming, Wang, Jun, (Principal Investigator), Chang, Yuqi, Feng, Qiang, Fang, Xiaodong, Guo, Xiaosen, Jian, Min, Jiang, Hui, Jin, Xin, Lan, Tianming, Li, Guoqing, Li, Jingxiang, Li, Yingrui, Liu, Shengmao, Liu, Xiao, Lu, Yao, Ma, Xuedi, Tang, Meifang, Wang, Bo, Wang, Guangbiao, Wu, Honglong, Wu, Renhua, Xu, Xun, Yin, Ye, Zhang, Dandan, Zhang, Wenwei, Zhao, Jiao, Zhao, Meiru, Zheng, Xiaole, Lander, Eric S., (Principal Investigator), Gabriel, Stacey B., (Co-Chair), Gupta, Namrata, Gharani, Neda, Toji, Lorraine H., Gerry, Norman P., Resch, Alissa M., Barker, Jonathan, Gil, Laurent, Hunt, Sarah E., Kelman, Gavin, Kulesha, Eugene, Leinonen, Rasko, McLaren, William M., Radhakrishnan, Rajesh, Roa, Asier, Smirnov, Dmitriy, Smith, Richard E., Streeter, Ian, Thormann, Anja, Toneva, Iliana, Vaughan, Brendan, Zheng-Bradley, Xiangqun, Bentley, David R., (Principal Investigator), Grocock, Russell, Humphray, Sean, James, Terena, Kingsbury, Zoya, Lehrach, Hans, (Principal Investigator), Sudbrak, Ralf, (Project Leader), Albrecht, Marcus W., Amstislavskiy, Vyacheslav S., Borodina, Tatiana A., Lienhard, Matthias, Mertes, Florian, Sultan, Marc, Timmermann, Bernd, Yaspo, Marie-Laure, Mardis, Elaine R., (Co-Principal Investigator) (Co-Chair), Wilson, Richard K., (Co-Principal Investigator), Fulton, Lucinda, Fulton, Robert, Ananiev, Victor, Belaia, Zinaida, Beloslyudtsev, Dimitriy, Bouk, Nathan, Chen, Chao, Church, Deanna, Cohen, Robert, Cook, Charles, Garner, John, Hefferon, Timothy, Kimelman, Mikhail, Liu, Chunlei, Lopez, John, Meric, Peter, O’Sullivan, Chris, Ostapchuk, Yuri, Phan, Lon, Ponomarov, Sergiy, Schneider, Valerie, Shekhtman, Eugene, Sirotkin, Karl, Slotta, Douglas, Zhang, Hua, Balasubramaniam, Senduran, Burton, John, Danecek, Petr, Keane, Thomas M., Kolb-Kokocinski, Anja, McCarthy, Shane, Stalker, James, Quail, Michael, Schmidt, Jeanette P., (Principal Investigator), Davies, Christopher J., Gollub, Jeremy, Webster, Teresa, Wong, Brant, Zhan, Yiping, Auton, Adam, (Principal Investigator), Campbell, Christopher L., Kong, Yu, Marcketta, Anthony, Yu, Fuli, (Project Leader), Antunes, Lilian, Bainbridge, Matthew, Sabo, Aniko, Huang, Zhuoyi, Coin, Lachlan J. M., Fang, Lin, Li, Qibin, Li, Zhenyu, Lin, Haoxiang, Liu, Binghang, Luo, Ruibang, Shao, Haojing, Xie, Yinlong, Ye, Chen, Yu, Chang, Zhang, Fan, Zheng, Hancheng, Zhu, Hongmei, Alkan, Can, Dal, Elif, Kahveci, Fatma, Garrison, Erik P., (Project Lead), Kural, Deniz, Lee, Wan-Ping, Leong, Wen Fung, Stromberg, Michael, Ward, Alistair N., Wu, Jiantao, Zhang, Mengyao, Daly, Mark J., (Principal Investigator), DePristo, Mark A., (Project Leader), Handsaker, Robert E., (Project Leader), Banks, Eric, Bhatia, Gaurav, del Angel, Guillermo, Genovese, Giulio, Li, Heng, Kashin, Seva, Nemesh, James C., Poplin, Ryan E., Yoon, Seungtai C., (Principal Investigator), Lihm, Jayon, Makarov, Vladimir, Clark, Andrew G., (Principal Investigator), Gottipati, Srikanth, Keinan, Alon, Rodriguez-Flores, Juan L., Rausch, Tobias, (Project Leader), Fritz, Markus H., Stütz, Adrian M., Beal, Kathryn, Datta, Avik, Herrero, Javier, Ritchie, Graham R. S., Zerbino, Daniel, Sabeti, Pardis C., (Principal Investigator), Shlyakhter, Ilya, Schaffner, Stephen F., Vitti, Joseph, Cooper, David N., (Principal Investigator), Ball, Edward V., Stenson, Peter D., Barnes, Bret, Bauer, Markus, Cheetham, Keira R., Cox, Anthony, Eberle, Michael, Kahn, Scott, Murray, Lisa, Peden, John, Shaw, Richard, Kenny, Eimear E., (Principal Investigator), Batzer, Mark A., (Principal Investigator), Konkel, Miriam K., Walker, Jerilyn A., MacArthur, Daniel G., (Principal Investigator), Lek, Monkol, Herwig, Ralf, Koboldt, Daniel C., Larson, David, Ye, Kai, Gravel, Simon, Swaroop, Anand, Chew, Emily, Lappalainen, Tuuli, (Principal Investigator), Erlich, Yaniv, (Principal Investigator), Gymrek, Melissa, Willems, Thomas Frederick, Simpson, Jared T., Shriver, Mark D., (Principal Investigator), Rosenfeld, Jeffrey A., (Principal Investigator), Montgomery, Stephen B., (Principal Investigator), De La Vega, Francisco M., (Principal Investigator), Byrnes, Jake K., Carroll, Andrew W., DeGorter, Marianne K., Lacroute, Phil, Maples, Brian K., Martin, Alicia R., Moreno-Estrada, Andres, Shringarpure, Suyash S., Zakharia, Fouad, Halperin, Eran, (Principal Investigator), Baran, Yael, Cerveira, Eliza, Hwang, Jaeho, Malhotra, Ankit, (Co-Project Lead), Plewczynski, Dariusz, Radew, Kamen, Romanovitch, Mallory, Zhang, Chengsheng, (Co-Project Lead), Hyland, Fiona C. L., Craig, David W., (Principal Investigator), Christoforides, Alexis, Homer, Nils, Izatt, Tyler, Kurdoglu, Ahmet A., Sinari, Shripad A., Squire, Kevin, Xiao, Chunlin, Sebat, Jonathan, (Principal Investigator), Antaki, Danny, Gujral, Madhusudan, Noor, Amina, Ye, Kenny, Burchard, Esteban G., (Principal Investigator), Hernandez, Ryan D., (Principal Investigator), Gignoux, Christopher R., Haussler, David, (Principal Investigator), Katzman, Sol J., Kent, James W., Howie, Bryan, Ruiz-Linares, Andres, (Principal Investigator), Dermitzakis, Emmanouil T., (Principal Investigator), Devine, Scott E., (Principal Investigator), Abecasis, Gonçalo R., (Principal Investigator) (Co-Chair), Kang, Hyun Min, (Project Leader), Kidd, Jeffrey M., (Principal Investigator), Blackwell, Tom, Caron, Sean, Chen, Wei, Emery, Sarah, Fritsche, Lars, Fuchsberger, Christian, Jun, Goo, Li, Bingshan, Lyons, Robert, Scheller, Chris, Sidore, Carlo, Song, Shiya, Sliwerska, Elzbieta, Taliun, Daniel, Tan, Adrian, Welch, Ryan, Wing, Mary Kate, Zhan, Xiaowei, Awadalla, Philip, (Principal Investigator), Hodgkinson, Alan, Li, Yun, Shi, Xinghua, (Principal Investigator), Quitadamo, Andrew, Lunter, Gerton, (Principal Investigator), McVean, Gil A., (Principal Investigator) (Co-Chair), Marchini, Jonathan L., (Principal Investigator), Myers, Simon, (Principal Investigator), Churchhouse, Claire, Delaneau, Olivier, Gupta-Hinch, Anjali, Kretzschmar, Warren, Iqbal, Zamin, Mathieson, Iain, Menelaou, Androniki, Rimmer, Andy, Xifara, Dionysia K., Oleksyk, Taras K., (Principal Investigator), Fu, Yunxin, (Principal Investigator), Liu, Xiaoming, Xiong, Momiao, Jorde, Lynn, (Principal Investigator), Witherspoon, David, Xing, Jinchuan, Browning, Brian L., (Principal Investigator), Browning, Sharon R., (Principal Investigator), Hormozdiari, Fereydoun, Sudmant, Peter H., Khurana, Ekta, (Principal Investigator), Hurles, Matthew E., (Principal Investigator), Albers, Cornelis A., Ayub, Qasim, Chen, Yuan, Colonna, Vincenza, Jostins, Luke, Walter, Klaudia, Xue, Yali, Abyzov, Alexej, Balasubramanian, Suganthi, Chen, Jieming, Clarke, Declan, Fu, Yao, Harmanci, Arif O., Jin, Mike, Lee, Donghoon, Liu, Jeremy, Mu, Xinmeng Jasmine, Zhang, Jing, Zhang, Yan, McCarroll, Steven A., (Principal Investigator), Hartl, Chris, Shakir, Khalid, Degenhardt, Jeremiah, Korbel, Jan O., (Principal Investigator) (Co-Chair), Meiers, Sascha, Raeder, Benjamin, Casale, Francesco Paolo, Stegle, Oliver, Lameijer, Eric-Wubbo, Ding, Li, (Principal Investigator), Hall, Ira, Lee, Charles, (Principal Investigator) (Co-Chair), Bafna, Vineet, Michaelson, Jacob, Gardner, Eugene J., (Project Leader), Mills, Ryan E., (Principal Investigator), Dayama, Gargi, Chen, Ken, (Principle Investigator), Fan, Xian, Chong, Zechen, Chen, Tenghui, Eichler, Evan E., (Principal Investigator) (Co-Chair), Chaisson, Mark J., Huddleston, John, Malig, Maika, Nelson, Bradley J., Parrish, Nicholas F., Blackburne, Ben, Lindsay, Sarah J., Ning, Zemin, Zhang, Yujun, Lam, Hugo, Sisu, Cristina, Gibbs, Richard A., (Principal Investigator) (Co-Chair), Challis, Danny, Evani, Uday S., Lu, James, Nagaswamy, Uma, Yu, Jin, Li, Wangshen, Marth, Gabor T., (Principal Investigator) (Co-Chair), Habegger, Lukas, Yu, Haiyuan, (Principal Investigator), Cunningham, Fiona, Dunham, Ian, Lage, Kasper, (Principal Investigator), Jespersen, Jakob Berg, Horn, Heiko, Tyler-Smith, Chris, (Principal Investigator) (Co-Chair), Gerstein, Mark B., (Principal Investigator) (Co-Chair), Kim, Donghoon, Desalle, Rob, Narechania, Apurva, Wilson Sayres, Melissa A., Bustamante, Carlos D., (Principal Investigator) (Co-Chair), Mendez, Fernando L., Poznik, David G., Underhill, Peter A., Coin, Lachlan, (Principal Investigator), Mittelman, David, Banerjee, Ruby, Cerezo, Maria, Fitzgerald, Thomas W., Louzada, Sandra, Massaia, Andrea, Ritchie, Graham R., Yang, Fengtang, Kalra, Divya, Hale, Walker, Dan, Xu, Flicek, Paul, (Principal Investigator) (Co-Chair), Clarke, Laura, (Project Lead), Sherry, Stephen T., (Principal Investigator) (Co-Chair), Chakravarti, Aravinda, (Co-Chair), Knoppers, Bartha M., (Co-Chair), Barnes, Kathleen C., Beiswanger, Christine, Cai, Hongyu, Cao, Hongzhi, Henn, Brenna, Jones, Danielle, Kaye, Jane S., Kent, Alastair, Kerasidou, Angeliki, Mathias, Rasika, Ossorio, Pilar N., Parker, Michael, Rotimi, Charles N., Royal, Charmaine D., Sandoval, Karla, Su, Yeyang, Tian, Zhongming, Tishkoff, Sarah, Via, Marc, Wang, Yuhong, Yang, Ling, Zhu, Jiayong, Bodmer, Walter, Bedoya, Gabriel, Cai, Zhiming, Gao, Yang, Chu, Jiayou, Peltonen, Leena, Garcia-Montero, Andres, Orfao, Alberto, Dutil, Julie, Martinez-Cruzado, Juan C., Mathias, Rasika A., Hennis, Anselm, Watson, Harold, McKenzie, Colin, Qadri, Firdausi, LaRocque, Regina, Deng, Xiaoyan, Asogun, Danny, Folarin, Onikepe, Happi, Christian, Omoniwa, Omonwunmi, Stremlau, Matt, Tariyal, Ridhi, Jallow, Muminatou, Joof, Fatoumatta Sisay, Corrah, Tumani, Rockett, Kirk, Kwiatkowski, Dominic, Kooner, Jaspal, Hiê`n, Trâ`n Tinh, Dunstan, Sarah J., Hang, Nguyen Thuy, Fonnie, Richard, Garry, Robert, Kanneh, Lansana, Moses, Lina, Schieffelin, John, Grant, Donald S., Gallo, Carla, Poletti, Giovanni, Saleheen, Danish, Rasheed, Asif, Brooks, Lisa D., Felsenfeld, Adam L., McEwen, Jean E., Vaydylevich, Yekaterina, Duncanson, Audrey, Dunn, Michael, Schloss, Jeffery A., and Yang, Huanming
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- 2015
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13. Additional file 1 of Ancestry inference using reference labeled clusters of haplotypes
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Wang, Yong, Song, Shiya, Schraiber, Joshua G., Sedghifar, Alisa, Byrnes, Jake K., Turissini, David A., Hong, Eurie L., Ball, Catherine A., and Noto, Keith
- Abstract
Additional file 1: Supplementary Materials. Contains Figures S1–S5, Tables S1 and S2, and Appendix S1 which contains implementation details, formulas, and pseudocode.
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- 2021
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14. Ancestry Inference Using Reference Labeled Clusters of Haplotypes
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Wang, Yong, primary, Song, Shiya, additional, Schraiber, Joshua G., additional, Sedghifar, Alisa, additional, Byrnes, Jake K., additional, Turissini, David A., additional, Hong, Eurie L., additional, Ball, Catherine A., additional, and Noto, Keith, additional
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- 2020
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15. An integrated map of genetic variation from 1,092 human genomes
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McVean, Gil A., Altshuler, David M., Durbin, Richard M., Abecasis, Gonçalo R., Bentley, David R., Chakravarti, Aravinda, Clark, Andrew G., Donnelly, Peter, Eichler, Evan E., Flicek, Paul, Gabriel, Stacey B., Gibbs, Richard A., Green, Eric D., Hurles, Matthew E., Knoppers, Bartha M., Korbel, Jan O., Lander, Eric S., Lee, Charles, Lehrach, Hans, Mardis, Elaine R., Marth, Gabor T., Nickerson, Deborah A., Schmidt, Jeanette P., Sherry, Stephen T., Wang, Jun, Wilson, Richard K., Dinh, Huyen, Kovar, Christie, Lee, Sandra, Lewis, Lora, Muzny, Donna, Reid, Jeff, Wang, Min, Wang, Jun, Fang, Xiaodong, Guo, Xiaosen, Jian, Min, Jiang, Hui, Jin, Xin, Li, Guoqing, Li, Jingxiang, Li, Yingrui, Li, Zhuo, Liu, Xiao, Lu, Yao, Ma, Xuedi, Su, Zhe, Tai, Shuaishuai, Tang, Meifang, Wang, Bo, Wang, Guangbiao, Wu, Honglong, Wu, Renhua, Yin, Ye, Zhang, Wenwei, Zhao, Jiao, Zhao, Meiru, Zheng, Xiaole, Zhou, Yan, Lander, Eric S., Gabriel, Stacey B., Gupta, Namrata, Flicek, Paul, Clarke, Laura, Leinonen, Rasko, Smith, Richard E., Zheng-Bradley, Xiangqun, Bentley, David R., Grocock, Russell, Humphray, Sean, James, Terena, Kingsbury, Zoya, Lehrach, Hans, Sudbrak, Ralf, Albrecht, Marcus W., Amstislavskiy, Vyacheslav S., Borodina, Tatiana A., Lienhard, Matthias, Mertes, Florian, Sultan, Marc, Timmermann, Bernd, Yaspo, Marie-Laure, Sherry, Stephen T., McVean, Gil A., Mardis, Elaine R., Wilson, Richard K., Fulton, Lucinda, Fulton, Robert, Weinstock, George M., Durbin, Richard M., Balasubramaniam, Senduran, Burton, John, Danecek, Petr, Keane, Thomas M., Kolb-Kokocinski, Anja, McCarthy, Shane, Stalker, James, Quail, Michael, Schmidt, Jeanette P., Davies, Christopher J., Gollub, Jeremy, Webster, Teresa, Wong, Brant, Zhan, Yiping, Auton, Adam, Yu, Fuli, Bainbridge, Matthew, Challis, Danny, Evani, Uday S., Lu, James, Nagaswamy, Uma, Sabo, Aniko, Wang, Yi, Yu, Jin, Coin, Lachlan J. M., Fang, Lin, Li, Qibin, Li, Zhenyu, Lin, Haoxiang, Liu, Binghang, Luo, Ruibang, Qin, Nan, Shao, Haojing, Wang, Bingqiang, Xie, Yinlong, Ye, Chen, Yu, Chang, Zhang, Fan, Zheng, Hancheng, Zhu, Hongmei, Garrison, Erik P., Kural, Deniz, Lee, Wan-Ping, Fung Leong, Wen, Ward, Alistair N., Wu, Jiantao, Zhang, Mengyao, Lee, Charles, Griffin, Lauren, Hsieh, Chih-Heng, Mills, Ryan E., Shi, Xinghua, von Grotthuss, Marcin, Zhang, Chengsheng, Daly, Mark J., DePristo, Mark A., Banks, Eric, Bhatia, Gaurav, Carneiro, Mauricio O., del Angel, Guillermo, Genovese, Giulio, Handsaker, Robert E., Hartl, Chris, McCarroll, Steven A., Nemesh, James C., Poplin, Ryan E., Schaffner, Stephen F., Shakir, Khalid, Yoon, Seungtai C., Lihm, Jayon, Makarov, Vladimir, Jin, Hanjun, Kim, Wook, Cheol Kim, Ki, Korbel, Jan O., Rausch, Tobias, Beal, Kathryn, Cunningham, Fiona, Herrero, Javier, McLaren, William M., Ritchie, Graham R. S., Clark, Andrew G., Gottipati, Srikanth, Keinan, Alon, Rodriguez-Flores, Juan L., Sabeti, Pardis C., Grossman, Sharon R., Tabrizi, Shervin, Tariyal, Ridhi, Cooper, David N., Ball, Edward V., Stenson, Peter D., Barnes, Bret, Bauer, Markus, Keira Cheetham, R., Cox, Tony, Eberle, Michael, Kahn, Scott, Murray, Lisa, Peden, John, Shaw, Richard, Ye, Kai, Batzer, Mark A., Konkel, Miriam K., Walker, Jerilyn A., MacArthur, Daniel G., Lek, Monkol, Sudbrak, Herwig, Ralf, Shriver, Mark D., Bustamante, Carlos D., Byrnes, Jake K., De La Vega, Francisco M., Gravel, Simon, Kenny, Eimear E., Kidd, Jeffrey M., Lacroute, Phil, Maples, Brian K., Moreno-Estrada, Andres, Zakharia, Fouad, Halperin, Eran, Baran, Yael, Craig, David W., Christoforides, Alexis, Homer, Nils, Izatt, Tyler, Kurdoglu, Ahmet A., Sinari, Shripad A., Squire, Kevin, Xiao, Chunlin, Sebat, Jonathan, Bafna, Vineet, Ye, Kenny, Burchard, Esteban G., Hernandez, Ryan D., Gignoux, Christopher R., Haussler, David, Katzman, Sol J., James Kent, W., Howie, Bryan, Ruiz-Linares, Andres, Dermitzakis, Emmanouil T., Lappalainen, Tuuli, Devine, Scott E., Liu, Xinyue, Maroo, Ankit, Tallon, Luke J., Rosenfeld, Jeffrey A., Min Kang, Hyun, Anderson, Paul, Angius, Andrea, Bigham, Abigail, Blackwell, Tom, Busonero, Fabio, Cucca, Francesco, Fuchsberger, Christian, Jones, Chris, Jun, Goo, Li, Yun, Lyons, Robert, Maschio, Andrea, Porcu, Eleonora, Reinier, Fred, Sanna, Serena, Schlessinger, David, Sidore, Carlo, Tan, Adrian, Kate Trost, Mary, Awadalla, Philip, Hodgkinson, Alan, Lunter, Gerton, McVean, Gil A., Marchini, Jonathan L., Myers, Simon, Churchhouse, Claire, Delaneau, Olivier, Gupta-Hinch, Anjali, Iqbal, Zamin, Mathieson, Iain, Rimmer, Andy, Xifara, Dionysia K., Oleksyk, Taras K., Fu, Yunxin, Liu, Xiaoming, Xiong, Momiao, Jorde, Lynn, Witherspoon, David, Xing, Jinchuan, Eichler, Evan E., Browning, Brian L., Alkan, Can, Hajirasouliha, Iman, Hormozdiari, Fereydoun, Ko, Arthur, Sudmant, Peter H., Mardis, Elaine R., Chen, Ken, Chinwalla, Asif, Ding, Li, Dooling, David, Koboldt, Daniel C., McLellan, Michael D., Wallis, John W., Wendl, Michael C., Zhang, Qunyuan, Hurles, Matthew E., Tyler-Smith, Chris, Albers, Cornelis A., Ayub, Qasim, Chen, Yuan, Coffey, Alison J., Colonna, Vincenza, Huang, Ni, Jostins, Luke, Li, Heng, Scally, Aylwyn, Walter, Klaudia, Xue, Yali, Zhang, Yujun, Gerstein, Mark B., Abyzov, Alexej, Balasubramanian, Suganthi, Chen, Jieming, Clarke, Declan, Fu, Yao, Habegger, Lukas, Harmanci, Arif O., Jin, Mike, Khurana, Ekta, Jasmine Mu, Xinmeng, Sisu, Cristina, Lee, Charles, McCarroll, Steven A., Degenhardt, Jeremiah, Korbel, Jan O., Stütz, Adrian M., Church, Deanna, Michaelson, Jacob J., Eichler, Evan E., Hurles, Matthew E., Blackburne, Ben, Lindsay, Sarah J., Ning, Zemin, DePristo, Mark A., Min Kang, Hyun, Mardis, Elaine R., Yu, Fuli, Michelson, Leslie P., Tyler-Smith, Chris, Frankish, Adam, Harrow, Jennifer, Fowler, Gerald, Hale, Walker, Kalra, Divya, Flicek, Paul, Clarke, Laura, Barker, Jonathan, Kelman, Gavin, Kulesha, Eugene, Radhakrishnan, Rajesh, Roa, Asier, Smirnov, Dmitriy, Streeter, Ian, Toneva, Iliana, Vaughan, Brendan, Sherry, Stephen T., Ananiev, Victor, Belaia, Zinaida, Beloslyudtsev, Dimitriy, Bouk, Nathan, Chen, Chao, Cohen, Robert, Cook, Charles, Garner, John, Hefferon, Timothy, Kimelman, Mikhail, Liu, Chunlei, Lopez, John, Meric, Peter, OʼSullivan, Chris, Ostapchuk, Yuri, Phan, Lon, Ponomarov, Sergiy, Schneider, Valerie, Shekhtman, Eugene, Sirotkin, Karl, Slotta, Douglas, Zhang, Hua, Chakravarti, Aravinda, Knoppers, Bartha M., Barnes, Kathleen C., Beiswanger, Christine, Burchard, Esteban G., Bustamante, Carlos D., Cai, Hongyu, Cao, Hongzhi, Durbin, Richard M., Gharani, Neda, Henn, Brenna, Jones, Danielle, Jorde, Lynn, Kaye, Jane S., Kent, Alastair, Kerasidou, Angeliki, Mathias, Rasika, Ossorio, Pilar N., Parker, Michael, Reich, David, Rotimi, Charles N., Royal, Charmaine D., Sandoval, Karla, Su, Yeyang, Sudbrak, Ralf, Tian, Zhongming, Tishkoff, Sarah, Toji, Lorraine H., Tyler-Smith, Chris, Via, Marc, Wang, Yuhong, Yang, Huanming, Yang, Ling, Zhu, Jiayong, Bodmer, Walter, Bedoya, Gabriel, Ruiz-Linares, Andres, Zhi Ming, Cai, Yang, Gao, Jia You, Chu, Peltonen, Leena, Garcia-Montero, Andres, Orfao, Alberto, Dutil, Julie, Martinez-Cruzado, Juan C., Oleksyk, Taras K., Brooks, Lisa D., Felsenfeld, Adam L., McEwen, Jean E., Clemm, Nicholas C., Duncanson, Audrey, Dunn, Michael, Guyer, Mark S., Peterson, Jane L., Abecasis, Goncalo R., and Auton, Adam
- Published
- 2012
- Full Text
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16. Term pregnancies and the clinical characteristics of multiple sclerosis: a population based study
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Ramagopalan, Sreeram, Yee, Irene, Byrnes, Jake, Guimond, Colleen, Ebers, George, and Sadovnick, Dessa
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- 2012
- Full Text
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17. A Prospective Analysis of Genetic Variants Associated with Human Lifespan
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Wright, Kevin M, primary, Rand, Kristin A, additional, Kermany, Amir, additional, Noto, Keith, additional, Curtis, Don, additional, Garrigan, Daniel, additional, Slinkov, Dmitri, additional, Dorfman, Ilya, additional, Granka, Julie M, additional, Byrnes, Jake, additional, Myres, Natalie, additional, Ball, Catherine A, additional, and Ruby, J Graham, additional
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- 2019
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18. Genome-wide association study of CNVs in 16,000 cases of eight common diseases and 3,000 shared controls
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Craddock, Nick, Hurles, Matthew E., Cardin, Niall, Pearson, Richard D., Plagnol, Vincent, Robson, Samuel, Vukcevic, Damjan, Barnes, Chris, Conrad, Donald F., Giannoulatou, Eleni, Holmes, Chris, Marchini, Jonathan L., Stirrups, Kathy, Tobin, Martin D., Wain, Louise V., Yau, Chris, Aerts, Jan, Ahmad, Tariq, Daniel Andrews, T., Arbury, Hazel, Attwood, Anthony, Auton, Adam, Ball, Stephen G., Balmforth, Anthony J., Barrett, Jeffrey C., Barroso, Inês, Barton, Anne, Bennett, Amanda J., Bhaskar, Sanjeev, Blaszczyk, Katarzyna, Bowes, John, Brand, Oliver J., Braund, Peter S., Bredin, Francesca, Breen, Gerome, Brown, Morris J., Bruce, Ian N., Bull, Jaswinder, Burren, Oliver S., Burton, John, Byrnes, Jake, Caesar, Sian, Clee, Chris M., Coffey, Alison J., Connell, John M. C., Cooper, Jason D., Dominiczak, Anna F., Downes, Kate, Drummond, Hazel E., Dudakia, Darshna, Dunham, Andrew, Ebbs, Bernadette, Eccles, Diana, Edkins, Sarah, Edwards, Cathryn, Elliot, Anna, Emery, Paul, Evans, David M., Evans, Gareth, Eyre, Steve, Farmer, Anne, Nicol Ferrier, I., Feuk, Lars, Fitzgerald, Tomas, Flynn, Edward, Forbes, Alistair, Forty, Liz, Franklyn, Jayne A., Freathy, Rachel M., Gibbs, Polly, Gilbert, Paul, Gokumen, Omer, Gordon-Smith, Katherine, Gray, Emma, Green, Elaine, Groves, Chris J., Grozeva, Detelina, Gwilliam, Rhian, Hall, Anita, Hammond, Naomi, Hardy, Matt, Harrison, Pile, Hassanali, Neelam, Hebaishi, Husam, Hines, Sarah, Hinks, Anne, Hitman, Graham A, Hocking, Lynne, Howard, Eleanor, Howard, Philip, Howson, Joanna M. M., Hughes, Debbie, Hunt, Sarah, Isaacs, John D., Jain, Mahim, Jewell, Derek P., Johnson, Toby, Jolley, Jennifer D., Jones, Ian R., Jones, Lisa A., Kirov, George, Langford, Cordelia F., Lango-Allen, Hana, Mark Lathrop, G., Lee, James, Lee, Kate L., Lees, Charlie, Lewis, Kevin, Lindgren, Cecilia M., Maisuria-Armer, Meeta, Maller, Julian, Mansfield, John, Martin, Paul, Massey, Dunecan C. O., McArdle, Wendy L., McGuffin, Peter, McLay, Kirsten E., Mentzer, Alex, Mimmack, Michael L., Morgan, Ann E., Morris, Andrew P., Mowat, Craig, Myers, Simon, Newman, William, Nimmo, Elaine R., O’Donovan, Michael C., Onipinla, Abiodun, Onyiah, Ifejinelo, Ovington, Nigel R., Owen, Michael J., Palin, Kimmo, Parnell, Kirstie, Pernet, David, Perry, John R. B., Phillips, Anne, Pinto, Dalila, Prescott, Natalie J., Prokopenko, Inga, Quail, Michael A., Rafelt, Suzanne, Rayner, Nigel W., Redon, Richard, Reid, David M., Renwick, Anthony, Ring, Susan M., Robertson, Neil, Russell, Ellie, St Clair, David, Sambrook, Jennifer G., Sanderson, Jeremy D., Schuilenburg, Helen, Scott, Carol E., Scott, Richard, Seal, Sheila, Shaw-Hawkins, Sue, Shields, Beverley M., Simmonds, Matthew J., Smyth, Debbie J., Somaskantharajah, Elilan, Spanova, Katarina, Steer, Sophia, Stephens, Jonathan, Stevens, Helen E., Stone, Millicent A., Su, Zhan, Symmons, Deborah P. M., Thompson, John R., Thomson, Wendy, Travers, Mary E., Turnbull, Clare, Valsesia, Armand, Walker, Mark, Walker, Neil M., Wallace, Chris, Warren-Perry, Margaret, Watkins, Nicholas A., Webster, John, Weedon, Michael N., Wilson, Anthony G., Woodburn, Matthew, Wordsworth, Paul B., Young, Allan H., Zeggini, Eleftheria, Carter, Nigel P., Frayling, Timothy M., Lee, Charles, McVean, Gil, Munroe, Patricia B., Palotie, Aarno, Sawcer, Stephen J., Scherer, Stephen W., Strachan, David P., Tyler-Smith, Chris, Brown, Matthew A., Burton, Paul R., Caulfield, Mark J., Compston, Alastair, Farrall, Martin, Gough, Stephen C. L., Hall, Alistair S., Hattersley, Andrew T., Hill, Adrian V. S., Mathew, Christopher G., Pembrey, Marcus, Satsangi, Jack, Stratton, Michael R., Worthington, Jane, Deloukas, Panos, Duncanson, Audrey, Kwiatkowski, Dominic P., McCarthy, Mark I., Ouwehand, Willem H., Parkes, Miles, Rahman, Nazneen, Todd, John A., Samani, Nilesh J., and Donnelly, Peter
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- 2010
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19. Reorganization of Adjacent Gene Relationships in Yeast Genomes by Whole-Genome Duplication and Gene Deletion
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Byrnes, Jake K., Morris, Geoffrey P., and Li, Wen-Hsiung
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- 2006
20. Multiple Measures Reveal The Value of Both Race And Geographic Ancestry For Self-Identification
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Damotte, Vincent, primary, Zhao, Chao, additional, Lin, Chris, additional, Williams, Eric, additional, Louzoun, Yoram, additional, Madbouly, Abeer, additional, Kotlarz, Rochelle, additional, McDaniel, Marisa, additional, Norman, Paul J., additional, Lizee, Antoine, additional, Myres, Natalie M., additional, Ball, Catherine A., additional, Chahine, Kenneth G., additional, Byrnes, Jake, additional, Wang, Yong, additional, Maiers, Martin, additional, and Hollenbach, Jill A., additional
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- 2019
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21. Estimates of the Heritability of Human Longevity Are Substantially Inflated due to Assortative Mating
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Ruby, J Graham, primary, Wright, Kevin M, additional, Rand, Kristin A, additional, Kermany, Amir, additional, Noto, Keith, additional, Curtis, Don, additional, Varner, Neal, additional, Garrigan, Daniel, additional, Slinkov, Dmitri, additional, Dorfman, Ilya, additional, Granka, Julie M, additional, Byrnes, Jake, additional, Myres, Natalie, additional, and Ball, Catherine, additional
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- 2018
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22. Clustering of 770,000 genomes reveals post-colonial population structure of North America
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Han, Eunjung, primary, Carbonetto, Peter, additional, Curtis, Ross E., additional, Wang, Yong, additional, Granka, Julie M., additional, Byrnes, Jake, additional, Noto, Keith, additional, Kermany, Amir R., additional, Myres, Natalie M., additional, Barber, Mathew J., additional, Rand, Kristin A., additional, Song, Shiya, additional, Roman, Theodore, additional, Battat, Erin, additional, Elyashiv, Eyal, additional, Guturu, Harendra, additional, Hong, Eurie L., additional, Chahine, Kenneth G., additional, and Ball, Catherine A., additional
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- 2017
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23. A Method to Exploit the Structure of Genetic Ancestry Space to Enhance Case-Control Studies
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Bodea, Corneliu A., primary, Neale, Benjamin M., additional, Ripke, Stephan, additional, Daly, Mark J., additional, Devlin, Bernie, additional, Roeder, Kathryn, additional, Barclay, Murray, additional, Peyrin-Biroulet, Laurent, additional, Chamaillard, Mathias, additional, Colombel, Jean-Frederick, additional, Cottone, Mario, additional, Croft, Anthony, additional, D’Incà, Renata, additional, Halfvarson, Jonas, additional, Hanigan, Katherine, additional, Henderson, Paul, additional, Hugot, Jean-Pierre, additional, Karban, Amir, additional, Kennedy, Nicholas A., additional, Khan, Mohammed Azam, additional, Lémann, Marc, additional, Levine, Arie, additional, Massey, Dunecan, additional, Milla, Monica, additional, Montgomery, Grant W., additional, Ng, Sok Meng Evelyn, additional, Oikonomou, Ioannis, additional, Peeters, Harald, additional, Proctor, Deborah D., additional, Rahier, Jean-Francois, additional, Roberts, Rebecca, additional, Rutgeerts, Paul, additional, Seibold, Frank, additional, Stronati, Laura, additional, Taylor, Kirstin M., additional, Törkvist, Leif, additional, Ublick, Kullak, additional, Van Limbergen, Johan, additional, Van Gossum, Andre, additional, Vatn, Morten H., additional, Zhang, Hu, additional, Zhang, Wei, additional, Andrews, Jane M., additional, Bampton, Peter A., additional, Florin, Timothy H., additional, Gearry, Richard, additional, Krishnaprasad, Krupa, additional, Lawrance, Ian C., additional, Mahy, Gillian, additional, Radford-Smith, Graham, additional, Roberts, Rebecca L., additional, Simms, Lisa A., additional, Amininijad, Leila, additional, Cleynen, Isabelle, additional, Dewit, Olivier, additional, Franchimont, Denis, additional, Georges, Michel, additional, Laukens, Debby, additional, Theatre, Emilie, additional, Van Gossum, André, additional, Vermeire, Severine, additional, Aumais, Guy, additional, Baidoo, Leonard, additional, Barrie, Arthur M., additional, Beck, Karen, additional, Bernard, Edmond-Jean, additional, Binion, David G., additional, Bitton, Alain, additional, Brant, Steve R., additional, Cho, Judy H., additional, Cohen, Albert, additional, Croitoru, Kenneth, additional, Datta, Lisa W., additional, Deslandres, Colette, additional, Duerr, Richard H., additional, Dutridge, Debra, additional, Ferguson, John, additional, Fultz, Joann, additional, Goyette, Philippe, additional, Greenberg, Gordon R., additional, Haritunians, Talin, additional, Jobin, Gilles, additional, Katz, Seymour, additional, Lahaie, Raymond G., additional, McGovern, Dermot P., additional, Nelson, Linda, additional, Ng, Sok Meng, additional, Ning, Kaida, additional, Paré, Pierre, additional, Regueiro, Miguel D., additional, Rioux, John D., additional, Ruggiero, Elizabeth, additional, Schumm, L. Philip, additional, Schwartz, Marc, additional, Scott, Regan, additional, Sharma, Yashoda, additional, Silverberg, Mark S., additional, Spears, Denise, additional, Steinhart, A. Hillary, additional, Stempak, Joanne M., additional, Swoger, Jason M., additional, Tsagarelis, Constantina, additional, Zhang, Clarence, additional, Zhao, Hongyu, additional, Aerts, Jan, additional, Ahmad, Tariq, additional, Arbury, Hazel, additional, Attwood, Anthony, additional, Auton, Adam, additional, Ball, Stephen G., additional, Balmforth, Anthony J., additional, Barnes, Chris, additional, Barrett, Jeffrey C., additional, Barroso, Inês, additional, Barton, Anne, additional, Bennett, Amanda J., additional, Bhaskar, Sanjeev, additional, Blaszczyk, Katarzyna, additional, Bowes, John, additional, Brand, Oliver J., additional, Braund, Peter S., additional, Bredin, Francesca, additional, Breen, Gerome, additional, Brown, Morris J., additional, Bruce, Ian N., additional, Bull, Jaswinder, additional, Burren, Oliver S., additional, Burton, John, additional, Byrnes, Jake, additional, Caesar, Sian, additional, Cardin, Niall, additional, Clee, Chris M., additional, Coffey, Alison J., additional, Connell, John M.C., additional, Conrad, Donald F., additional, Cooper, Jason D., additional, Dominiczak, Anna F., additional, Downes, Kate, additional, Drummond, Hazel E., additional, Dudakia, Darshna, additional, Dunham, Andrew, additional, Ebbs, Bernadette, additional, Eccles, Diana, additional, Edkins, Sarah, additional, Edwards, Cathryn, additional, Elliot, Anna, additional, Emery, Paul, additional, Evans, David M., additional, Evans, Gareth, additional, Eyre, Steve, additional, Farmer, Anne, additional, Ferrier, Nicol, additional, Flynn, Edward, additional, Forbes, Alistair, additional, Forty, Liz, additional, Franklyn, Jayne A., additional, Frayling, Timothy M., additional, Freathy, Rachel M., additional, Giannoulatou, Eleni, additional, Gibbs, Polly, additional, Gilbert, Paul, additional, Gordon-Smith, Katherine, additional, Gray, Emma, additional, Green, Elaine, additional, Groves, Chris J., additional, Grozeva, Detelina, additional, Gwilliam, Rhian, additional, Hall, Anita, additional, Hammond, Naomi, additional, Hardy, Matt, additional, Harrison, Pile, additional, Hassanali, Neelam, additional, Hebaishi, Husam, additional, Hines, Sarah, additional, Hinks, Anne, additional, Hitman, Graham A., additional, Hocking, Lynne, additional, Holmes, Chris, additional, Howard, Eleanor, additional, Howard, Philip, additional, Howson, Joanna M.M., additional, Hughes, Debbie, additional, Hunt, Sarah, additional, Isaacs, John D., additional, Jain, Mahim, additional, Jewell, Derek P., additional, Johnson, Toby, additional, Jolley, Jennifer D., additional, Jones, Ian R., additional, Jones, Lisa A., additional, Kirov, George, additional, Langford, Cordelia F., additional, Lango-Allen, Hana, additional, Lathrop, G. Mark, additional, Lee, James, additional, Lee, Kate L., additional, Lees, Charlie, additional, Lewis, Kevin, additional, Lindgren, Cecilia M., additional, Maisuria-Armer, Meeta, additional, Maller, Julian, additional, Mansfield, John, additional, Marchini, Jonathan L., additional, Martin, Paul, additional, Massey, Dunecan C.O., additional, McArdle, Wendy L., additional, McGuffin, Peter, additional, McLay, Kirsten E., additional, McVean, Gil, additional, Mentzer, Alex, additional, Mimmack, Michael L., additional, Morgan, Ann E., additional, Morris, Andrew P., additional, Mowat, Craig, additional, Munroe, Patricia B., additional, Myers, Simon, additional, Newman, William, additional, Nimmo, Elaine R., additional, O’Donovan, Michael C., additional, Onipinla, Abiodun, additional, Ovington, Nigel R., additional, Owen, Michael J., additional, Palin, Kimmo, additional, Palotie, Aarno, additional, Parnell, Kirstie, additional, Pearson, Richard, additional, Pernet, David, additional, Perry, John R.B., additional, Phillips, Anne, additional, Plagnol, Vincent, additional, Prescott, Natalie J., additional, Prokopenko, Inga, additional, Quail, Michael A., additional, Rafelt, Suzanne, additional, Rayner, Nigel W., additional, Reid, David M., additional, Renwick, Anthony, additional, Ring, Susan M., additional, Robertson, Neil, additional, Robson, Samuel, additional, Russell, Ellie, additional, St Clair, David, additional, Sambrook, Jennifer G., additional, Sanderson, Jeremy D., additional, Sawcer, Stephen J., additional, Schuilenburg, Helen, additional, Scott, Carol E., additional, Scott, Richard, additional, Seal, Sheila, additional, Shaw-Hawkins, Sue, additional, Shields, Beverley M., additional, Simmonds, Matthew J., additional, Smyth, Debbie J., additional, Somaskantharajah, Elilan, additional, Spanova, Katarina, additional, Steer, Sophia, additional, Stephens, Jonathan, additional, Stevens, Helen E., additional, Stirrups, Kathy, additional, Stone, Millicent A., additional, Strachan, David P., additional, Su, Zhan, additional, Symmons, Deborah P.M., additional, Thompson, John R., additional, Thomson, Wendy, additional, Tobin, Martin D., additional, Travers, Mary E., additional, Turnbull, Clare, additional, Vukcevic, Damjan, additional, Wain, Louise V., additional, Walker, Mark, additional, Walker, Neil M., additional, Wallace, Chris, additional, Warren-Perry, Margaret, additional, Watkins, Nicholas A., additional, Webster, John, additional, Weedon, Michael N., additional, Wilson, Anthony G., additional, Woodburn, Matthew, additional, Wordsworth, B. Paul, additional, Yau, Chris, additional, Young, Allan H., additional, Zeggini, Eleftheria, additional, Brown, Matthew A., additional, Burton, Paul R., additional, Caulfield, Mark J., additional, Compston, Alastair, additional, Farrall, Martin, additional, Gough, Stephen C.L., additional, Hall, Alistair S., additional, Hattersley, Andrew T., additional, Hill, Adrian V.S., additional, Mathew, Christopher G., additional, Pembrey, Marcus, additional, Satsangi, Jack, additional, Stratton, Michael R., additional, Worthington, Jane, additional, Hurles, Matthew E., additional, Duncanson, Audrey, additional, Ouwehand, Willem H., additional, Parkes, Miles, additional, Rahman, Nazneen, additional, Todd, John A., additional, Samani, Nilesh J., additional, Kwiatkowski, Dominic P., additional, McCarthy, Mark I., additional, Craddock, Nick, additional, Deloukas, Panos, additional, Donnelly, Peter, additional, Blackwell, Jenefer M., additional, Bramon, Elvira, additional, Casas, Juan P., additional, Corvin, Aiden, additional, Jankowski, Janusz, additional, Markus, Hugh S., additional, Palmer, Colin N.A., additional, Plomin, Robert, additional, Rautanen, Anna, additional, Trembath, Richard C., additional, Viswanathan, Ananth C., additional, Wood, Nicholas W., additional, Spencer, Chris C.A., additional, Band, Gavin, additional, Bellenguez, Céline, additional, Freeman, Colin, additional, Hellenthal, Garrett, additional, Pirinen, Matti, additional, Strange, Amy, additional, Blackburn, Hannah, additional, Bumpstead, Suzannah J., additional, Dronov, Serge, additional, Gillman, Matthew, additional, Jayakumar, Alagurevathi, additional, McCann, Owen T., additional, Liddle, Jennifer, additional, Potter, Simon C., additional, Ravindrarajah, Radhi, additional, Ricketts, Michelle, additional, Waller, Matthew, additional, Weston, Paul, additional, Widaa, Sara, additional, and Whittaker, Pamela, additional
- Published
- 2016
- Full Text
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24. Using Y−Chromosome Haplotypes to Improve Inferred Ancestral Origins in European Populations
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Myres, Natalie, Underhill, Peter, Byrnes, Jake, Noto, Keith, Mazières, Stéphane, King, Roy, Angerhofer, Norman, Woodward, Scott, Ball, Cathy, Chahine, Ken, Sorenson Molecular Genealogy Foundation, Department of Psychiatry and Behavioral Sciences [Stanford], Stanford Medicine, Stanford University-Stanford University, Anthropologie bio-culturelle, Droit, Ethique et Santé (ADES), Aix Marseille Université (AMU)-EFS ALPES MEDITERRANEE-Centre National de la Recherche Scientifique (CNRS), and Mazières, Stéphane
- Subjects
[SHS.ANTHRO-BIO]Humanities and Social Sciences/Biological anthropology ,ComputingMilieux_MISCELLANEOUS ,[SHS.ANTHRO-BIO] Humanities and Social Sciences/Biological anthropology - Abstract
International audience
- Published
- 2012
25. Reconstructing the Population Genetic History of the Caribbean
- Author
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Moreno-Estrada, Andrés, primary, Gravel, Simon, additional, Zakharia, Fouad, additional, McCauley, Jacob L., additional, Byrnes, Jake K., additional, Gignoux, Christopher R., additional, Ortiz-Tello, Patricia A., additional, Martínez, Ricardo J., additional, Hedges, Dale J., additional, Morris, Richard W., additional, Eng, Celeste, additional, Sandoval, Karla, additional, Acevedo-Acevedo, Suehelay, additional, Norman, Paul J., additional, Layrisse, Zulay, additional, Parham, Peter, additional, Martínez-Cruzado, Juan Carlos, additional, Burchard, Esteban González, additional, Cuccaro, Michael L., additional, Martin, Eden R., additional, and Bustamante, Carlos D., additional
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- 2013
- Full Text
- View/download PDF
26. Parent-of-origin of HLA-DRB1*1501 and age of onset of multiple sclerosis
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Ramagopalan, Sreeram V, primary, Byrnes, Jake K, additional, Dyment, David A, additional, Guimond, Colleen, additional, Handunnetthi, Lahiru, additional, Disanto, Giulio, additional, Yee, Irene M, additional, Ebers, George C, additional, and Sadovnick, A Dessa, additional
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- 2009
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27. Whole genome transcriptome polymorphisms in Arabidopsis thaliana
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Zhang, Xu, primary, Byrnes, Jake K, additional, Gal, Thomas S, additional, Li, Wen-Hsiung, additional, and Borevitz, Justin O, additional
- Published
- 2008
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28. Fibronectin differentially regulates eosinophil migration, polarization and signaling via the p38 MAPK pathway
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Dziadzio, Laura L, primary, Holub, Alison, additional, Anderson, Scott, additional, Byrnes, Jake, additional, Busse, William W, additional, and Huttenlocher, Anna, additional
- Published
- 2002
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29. Bayesian refinement of association signals for 14 loci in 3 common diseases.
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Maller, Julian B, McVean, Gilean, Byrnes, Jake, Vukcevic, Damjan, Palin, Kimmo, Su, Zhan, Howson, Joanna M M, Auton, Adam, Myers, Simon, Morris, Andrew, Pirinen, Matti, Brown, Matthew A, Burton, Paul R, Caulfield, Mark J, Compston, Alastair, Farrall, Martin, Hall, Alistair S, Hattersley, Andrew T, Hill, Adrian V S, and Mathew, Christopher G
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GRAVES' disease ,CONTROL groups ,ETIOLOGY of diseases ,BAYESIAN analysis ,CELLULAR signal transduction ,GENE mapping ,GENE targeting ,DISEASE susceptibility - Abstract
To further investigate susceptibility loci identified by genome-wide association studies, we genotyped 5,500 SNPs across 14 associated regions in 8,000 samples from a control group and 3 diseases: type 2 diabetes (T2D), coronary artery disease (CAD) and Graves' disease. We defined, using Bayes theorem, credible sets of SNPs that were 95% likely, based on posterior probability, to contain the causal disease-associated SNPs. In 3 of the 14 regions, TCF7L2 (T2D), CTLA4 (Graves' disease) and CDKN2A-CDKN2B (T2D), much of the posterior probability rested on a single SNP, and, in 4 other regions (CDKN2A-CDKN2B (CAD) and CDKAL1, FTO and HHEX (T2D)), the 95% sets were small, thereby excluding most SNPs as potentially causal. Very few SNPs in our credible sets had annotated functions, illustrating the limitations in understanding the mechanisms underlying susceptibility to common diseases. Our results also show the value of more detailed mapping to target sequences for functional studies. [ABSTRACT FROM AUTHOR]
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- 2012
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30. Codon-usage bias versus gene conversion in the evolution of yeast duplicate genes.
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Yeong-Shin Lin, Byrnes, Jake K., Jenn-Kang Hwang, and Wen-Hsiung Li
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- *
SACCHAROMYCES cerevisiae , *KLUYVEROMYCES , *FUNGI , *GENES , *PROTEINS , *BIOLOGICAL evolution - Abstract
Many Saccharomyces cerevisiae duplicate genes that were derived from an ancient whole-genome duplication (WGD) unexpectedly show a small synonymous divergence (Ks), a higher sequence similarity to each other than to orthologues in Saccharomyces bayanus, or slow evolution compared with the orthologue in Kluyveromyces waltii, a non-WGD species. This decelerated evolution was attributed to gene conversion between duplicates. Using ≈300 WGD gene pairs in four species and their orthologues in non-WGD species, we show that codon-usage bias and protein-sequence conservation are two important causes for decelerated evolution of duplicate genes, whereas gene conversion is effective only in the presence of strong codon-usage bias or protein-sequence conservation. Furthermore, we find that change in mutation pattern or in tDNA copy number changed codon-usage bias and increased the Ks distance between K. waltii and S. cerevisiae. Intriguingly, some proteins showed fast evolution before the radiation of WGD species but little or no sequence divergence between orthologues and paralogues thereafter, indicating that functional conservation after the radiation may also be responsible for decelerated evolution in duplicates. [ABSTRACT FROM AUTHOR]
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- 2006
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31. Role of positive selection in the retention of duplicate genes in mammalian genomes.
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Shin-Han Shiu, Byrnes, Jake K., Pan, Runsun, Peng Zhang, and Wen-Hsiung Li
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- *
GENES , *COMPLEMENTATION (Genetics) , *POPULATION genetics , *HUMAN genome , *BIOLOGICAL divergence , *GENOMICS - Abstract
The question of how duplicate genes are retained in a population remains controversial. The duplication-degeneration-complementation model, which involves no positive selection, stipulates a higher retention rate of duplicate genes in a small population than in a large one. This model has been accepted by many evolutionists. However, we found considerably more retentions and fewer losses of duplicate genes in the mouse genome than in the human genome, although the population size of rodents is in general larger than that of primates. Indeed, in nearly every interval of synonymous divergence between duplicate genes, the number of gene retentions in mouse is larger than that in human. Our findings suggest a more important role of positive selection in duplicate retention than duplication-degeneration-complementation. In addition, certain functional categories show a higher tendency of lineage-specific expansion than expected, suggesting lineage-specific selection or functional bias in retained duplicates. [ABSTRACT FROM AUTHOR]
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- 2006
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32. Phased whole-genome genetic risk in a family quartet using a major allele reference sequence
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Michelle Whirl-Carrillo, Carlos Bustamante, Matthew T. Wheeler, Atul J. Butte, Emidio Capriotti, Katrin Sangkuhl, Kelly E. Ormond, Konrad J. Karczewski, Joshua W. Knowles, Joel T. Dudley, Russ B. Altman, Euan A. Ashley, Joan M. Hebert, Aleksandra Pavlovic, Mark Woon, Madeleine Ball, Teri E. Klein, Joseph V. Thakuria, Sergio Cordero, Anne West, John West, Jake K. Byrnes, Colleen Caleshu, George M. Church, Omar E. Cornejo, Heidi L. Rehm, Alexander Wait Zaranek, Frederick E. Dewey, Li Gong, Sean P. David, Michael Snyder, Rong Chen, Caroline F. Thorn, Dewey, Frederick E., Chen, Rong, Cordero, Sergio P., Ormond, Kelly E., Caleshu, Colleen, Karczewski, Konrad J., Whirl-Carrillo, Michelle, Wheeler, Matthew T., Dudley, Joel T., Byrnes, Jake K., Cornejo, Omar E., Knowles, Joshua W., Woon, Mark, Sangkuhl, Katrin, Gong, Li, Thorn, Caroline F., Hebert, Joan M., Capriotti, Emidio, David, Sean P., Pavlovic, Aleksandra, West, Anne, Thakuria, Joseph V., Ball, Madeleine P., Zaranek, Alexander W., Rehm, Heidi L., Church, George M., West, John S., Bustamante, Carlos D., Snyder, Michael, Altman, Russ B., Klein, Teri E., Butte, Atul J., Ashley, Euan A, and Copenhaver, Gregory P
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Male ,Cancer Research ,DNA Mutational Analysis ,Genome-wide association study ,0302 clinical medicine ,Genes, Synthetic ,2.1 Biological and endogenous factors ,Thrombophilia ,Aetiology ,Genetics (clinical) ,Genetics ,0303 health sciences ,Genome ,Reference Standards ,3. Good health ,Pedigree ,030220 oncology & carcinogenesis ,Female ,Sequence Analysis ,Research Article ,Human ,Biotechnology ,lcsh:QH426-470 ,Genotype ,Biology ,Risk Assessment ,DNA sequencing ,03 medical and health sciences ,Genetic ,Genetic Mutation ,Genetic variation ,Humans ,Genetic Predisposition to Disease ,Allele ,Genotyping ,Molecular Biology ,Ecology, Evolution, Behavior and Systematics ,Alleles ,030304 developmental biology ,Base Sequence ,Genome, Human ,Haplotype ,Synthetic ,Human Genome ,Genetic Variation ,Human Genetics ,DNA ,Sequence Analysis, DNA ,Ecology, Evolution, Behavior and Systematic ,lcsh:Genetics ,Genes ,Haplotypes ,Genetics of Disease ,Human genome ,Generic health relevance ,Sequence Alignment ,Reference genome ,Developmental Biology ,Genome-Wide Association Study - Abstract
Whole-genome sequencing harbors unprecedented potential for characterization of individual and family genetic variation. Here, we develop a novel synthetic human reference sequence that is ethnically concordant and use it for the analysis of genomes from a nuclear family with history of familial thrombophilia. We demonstrate that the use of the major allele reference sequence results in improved genotype accuracy for disease-associated variant loci. We infer recombination sites to the lowest median resolution demonstrated to date (, Author Summary An individual's genetic profile plays an important role in determining risk for disease and response to medical therapy. The development of technologies that facilitate rapid whole-genome sequencing will provide unprecedented power in the estimation of disease risk. Here we develop methods to characterize genetic determinants of disease risk and response to medical therapy in a nuclear family of four, leveraging population genetic profiles from recent large scale sequencing projects. We identify the way in which genetic information flows through the family to identify sequencing errors and inheritance patterns of genes contributing to disease risk. In doing so we identify genetic risk factors associated with an inherited predisposition to blood clot formation and response to blood thinning medications. We find that this aligns precisely with the most significant disease to occur to date in the family, namely pulmonary embolism, a blood clot in the lung. These ethnicity-specific, family-based approaches to interpretation of individual genetic profiles are emblematic of the next generation of genetic risk assessment using whole-genome sequencing.
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- 2011
33. Reconstructing Native American migrations from whole-genome and whole-exome data.
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Gravel S, Zakharia F, Moreno-Estrada A, Byrnes JK, Muzzio M, Rodriguez-Flores JL, Kenny EE, Gignoux CR, Maples BK, Guiblet W, Dutil J, Via M, Sandoval K, Bedoya G, Oleksyk TK, Ruiz-Linares A, Burchard EG, Martinez-Cruzado JC, and Bustamante CD
- Subjects
- Black People genetics, Chromosome Mapping, Exome, Genome, Human, Hispanic or Latino genetics, Human Genome Project, Humans, Mexican Americans genetics, Mexico, Puerto Rico, Racial Groups genetics, White People genetics, Gene Frequency genetics, Genetics, Population, Human Migration, Indians, North American genetics
- Abstract
There is great scientific and popular interest in understanding the genetic history of populations in the Americas. We wish to understand when different regions of the continent were inhabited, where settlers came from, and how current inhabitants relate genetically to earlier populations. Recent studies unraveled parts of the genetic history of the continent using genotyping arrays and uniparental markers. The 1000 Genomes Project provides a unique opportunity for improving our understanding of population genetic history by providing over a hundred sequenced low coverage genomes and exomes from Colombian (CLM), Mexican-American (MXL), and Puerto Rican (PUR) populations. Here, we explore the genomic contributions of African, European, and especially Native American ancestry to these populations. Estimated Native American ancestry is 48% in MXL, 25% in CLM, and 13% in PUR. Native American ancestry in PUR is most closely related to populations surrounding the Orinoco River basin, confirming the Southern American ancestry of the Taíno people of the Caribbean. We present new methods to estimate the allele frequencies in the Native American fraction of the populations, and model their distribution using a demographic model for three ancestral Native American populations. These ancestral populations likely split in close succession: the most likely scenario, based on a peopling of the Americas 16 thousand years ago (kya), supports that the MXL Ancestors split 12.2kya, with a subsequent split of the ancestors to CLM and PUR 11.7kya. The model also features effective populations of 62,000 in Mexico, 8,700 in Colombia, and 1,900 in Puerto Rico. Modeling Identity-by-descent (IBD) and ancestry tract length, we show that post-contact populations also differ markedly in their effective sizes and migration patterns, with Puerto Rico showing the smallest effective size and the earlier migration from Europe. Finally, we compare IBD and ancestry assignments to find evidence for relatedness among European founders to the three populations., Competing Interests: The authors have declared that no competing interests exist.
- Published
- 2013
- Full Text
- View/download PDF
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