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10 research outputs found

RIESGOS PSICOSOCIALES

Author: Alcázar Crevillén Andrés
FRANCO LORES MARIA
Publication venue: 'Universidad de Zaragoza'
Publication date: 01/01/2014
Field of study

Enfermedades profesionales psicosociales en el ámbito del trabajo y metodología para la realización de esta evaluación

Repositorio Universidad de Zaragoza

A saturated map of common genetic variants associated with human height

Author: Ahluwalia Tarunveer S.
Akiyama Masato
Allison Matthew A.
Alvarez Marcus
Andersen Mette K.
Ani Alireza
Appadurai Vivek
Arbeeva Liubov
Arias Joshua D.
Bartell Eric
Bhaskar Seema
Bielak Lawrence F.
Bollepalli Sailalitha
Bonnycastle Lori L.
Bork-Jensen Jette
Bradfield Jonathan P.
Bradford Yuki
Braund Peter S.
Brody Jennifer A.
Burgdorf Kristoffer S.
Cade Brian E.
Cai Hui
Cai Qiuyin
Campbell Archie
Catamo Eulalia
Cañadas-Garre Marisa
Chai Jin Fang
Chai Xiaoran
Chang Li Ching
Chang Yi Cheng
Chen Chien Hsiun
Chen Shyh Huei
Chesi Alessandra
Choi Seung Hoan
Christofidou Paraskevi
Chung Ren Hua
Cocca Massimiliano
Cole John W.
Concas Maria Pina
Couture Christian
Cuellar-Partida Gabriel
Danning Rebecca
Daw E. Warwick
Degenhard Frauke
Delgado Graciela E.
Delitala Alessandro
Demirkan Ayse
Deng Xuan
Devineni Poornima
Dietl Alexander
Dimitriou Maria
Dimitrov Latchezar
Dorajoo Rajkumar
Ekici Arif B.
Eliasen Anders U.
Engmann Jorgen E.
Fairhurst-Hunter Zammy
Farmaki Aliki Eleni
Faul Jessica D.
Fernandez-Lopez Juan Carlos
Ferreira Teresa
Forer Lukas
Francescatto Margherita
Franks Paul W.
Freitag-Wolf Sandra
Fuchsberger Christian
Galesloot Tessel E.
Gao Yan
Gao Zishan
Geller Frank
Giannakopoulou Olga
Giulianini Franco
Gjesing Anette P.
Goel Anuj
Gordon Scott D.
Gorski Mathias
Graff Marielisa
Graham Sarah E.
Griffiths Lyn
Grove Jakob
Guo Xiuqing
Gustafsson Stefan
Haessler Jeffrey
Hansen Thomas F.
Havulinna Aki S.
Haworth Simon J.
He Jing
Heard-Costa Nancy
Hebbar Prashantha
Highland Heather H.
Hindy George
Ho Yuk Lam A.
Hofer Edith
Holliday Elizabeth
Horn Katrin
Hornsby Whitney E.
Hottenga Jouke Jan
Huang Hongyan
Huang Jie
Huang Wei
Huerta-Chagoya Alicia
Huffman Jennifer E.
Hung Yi Jen
Huo Shaofeng
Hwang Mi Yeong
Iha Hiroyuki
Ikeda Daisuke D.
Isono Masato
Jackson Anne U.
Jansen Iris E.
Ji Yingjie
Jiang Yunxuan
Johansson Ingegerd
Jonas Jost B.
Jonsson Anna
Jäger Susanne
Jørgensen Torben
Kalafati Ioanna Panagiota
Kanai Masahiro
Kanoni Stavroula
Karaderi Tugce
Kasturiratne Anuradhani
Katsuya Tomohiro
Kawaguchi Takahisa
Kember Rachel L.
Kentistou Katherine A.
Kim Han Na
Kim Young Jin
Kleber Marcus E.
Knol Maria J.
Kurbasic Azra
Kårhus Line L.
Lauzon Marie
Le Phuong
Lea Rodney
Lee Jong Young
Leonard Hampton L.
Li Shengchao A.
Li Xiaohui
Li Xiaoyin
Liang Jingjing
Lin Honghuang
Lin Kuang
Lin Shih Yi
Liu Jun
Liu Xueping
Lo Ken Sin
Long Jirong
Lores-Motta Laura
Luan Jian’an
Lyssenko Valeriya
Lyytikäinen Leo Pekka
Lüll Kreete
Machado Moara
Mahajan Anubha
Malden Deborah E.
Mamakou Vasiliki
Mangino Massimo
Manichaikul Ani
Marouli Eirini
Marten Jonathan
Martin Nicholas G.
Mattheisen Manuel
Mavarani Laven
McDaid Aaron F.
Medina-Gomez Carolina
Medland Sarah E.
Meidtner Karina
Melendez Tori L.
Mercader Josep M.
Miao Jenkai
Milaneschi Yuri
Miller Jason E.
Millwood Iona Y.
Mishra Pashupati P.
Mitchell Ruth E.
Moore Amy
Morgan Anna
Morris Andrew D.
Mucha Soeren
Mukamel Ronen E.
Munz Matthias
Møllehave Line T.
Nakatochi Masahiro
Nelson Christopher P.
Nethander Maria
Nho Chu Won
Nielsen Aneta A.
Nolte Ilja M.
Nongmaithem Suraj S.
Noordam Raymond
Ntalla Ioanna
Nutile Teresa
other and
Pandit Anita
Pauper Marc
Petersen Eva R.B.
Petersen Liselotte V.
Pitkänen Niina
Polašek Ozren
Poveda Alaitz
Preuss Michael H.
Pyarajan Saiju
Pärna Katri
Raffield Laura M.
Raghavan Sridharan
Rakugi Hiromi
Ramirez Julia
Rasheed Asif
Raven Dennis
Rayner Nigel W.
Riveros Carlos
Rohde Rebecca
Ruggiero Daniela
Ruotsalainen Sanni E.
Ryan Kathleen A.
Rüeger Sina
Sabater-Lleal Maria
Sakaue Saori
Saxena Richa
Scholz Markus
Sendamarai Anoop
Shen Botong
Shi Jingchunzi
Shin Jae Hun
Sidore Carlo
Sidorenko Julia
Sim Xueling
Sitlani Colleen M.
Slieker Roderick C.
Smit Roelof A.J.
Smith Albert V.
Smith Jennifer A.
Smyth Laura J.
Southam Lorraine
Spracklen Cassandra N.
Sun Yan
Sun Yan V.
Vedantam Sailaja
Visscher Peter M.
Vrieze Scott
Walker Mark
Wang Zhe
Warren Helen R.
Wong Andrew
Wood Andrew R.
Yengo Loïc
Yin Xianyong
Young Hannah
Zhao Jing Hua
Zheng Wei
Publication venue: Nature Publishing Group
Publication date: 27/10/2022
Field of study

Common single-nucleotide polymorphisms (SNPs) are predicted to collectively explain 40–50% of phenotypic variation in human height, but identifying the specific variants and associated regions requires huge sample sizes1. Here, using data from a genome-wide association study of 5.4 million individuals of diverse ancestries, we show that 12,111 independent SNPs that are significantly associated with height account for nearly all of the common SNP-based heritability. These SNPs are clustered within 7,209 non-overlapping genomic segments with a mean size of around 90 kb, covering about 21% of the genome. The density of independent associations varies across the genome and the regions of increased density are enriched for biologically relevant genes. In out-of-sample estimation and prediction, the 12,111 SNPs (or all SNPs in the HapMap 3 panel2) account for 40% (45%) of phenotypic variance in populations of European ancestry but only around 10–20% (14–24%) in populations of other ancestries. Effect sizes, associated regions and gene prioritization are similar across ancestries, indicating that reduced prediction accuracy is likely to be explained by linkage disequilibrium and differences in allele frequency within associated regions. Finally, we show that the relevant biological pathways are detectable with smaller sample sizes than are needed to implicate causal genes and variants. Overall, this study provides a comprehensive map of specific genomic regions that contain the vast majority of common height-associated variants. Although this map is saturated for populations of European ancestry, further research is needed to achieve equivalent saturation in other ancestries.</p

Queensland University of Technology ePrints Archive

Common single-nucleotide polymorphisms (SNPs) are predicted to collectively explain 40-50% of phenotypic variation in human height, but identifying the specific variants and associated regions requires huge sample sizes1. Here, using data from a genome-wide association study of 5.4 million individuals of diverse ancestries, we show that 12,111 independent SNPs that are significantly associated with height account for nearly all of the common SNP-based heritability. These SNPs are clustered within 7,209 non-overlapping genomic segments with a mean size of around 90 kb, covering about 21% of the genome. The density of independent associations varies across the genome and the regions of increased density are enriched for biologically relevant genes. In out-of-sample estimation and prediction, the 12,111 SNPs (or all SNPs in the HapMap 3 panel2) account for 40% (45%) of phenotypic variance in populations of European ancestry but only around 10-20% (14-24%) in populations of other ancestries. Effect sizes, associated regions and gene prioritization are similar across ancestries, indicating that reduced prediction accuracy is likely to be explained by linkage disequilibrium and differences in allele frequency within associated regions. Finally, we show that the relevant biological pathways are detectable with smaller sample sizes than are needed to implicate causal genes and variants. Overall, this study provides a comprehensive map of specific genomic regions that contain the vast majority of common height-associated variants. Although this map is saturated for populations of European ancestry, further research is needed to achieve equivalent saturation in other ancestries

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Enlighten

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University of Essex Research Repository

Archivio istituzionale della ricerca - Università di Trieste

University of Bergen

University of Regensburg Publication Server

PubMed Central

UCL Discovery

Apollo (Cambridge)

The power of genetic diversity in genome-wide association studies of lipids

Author: Aadahl M. (Mette)
Abbas S. (Shahid)
Abecasis G. (Goncalo)
Adair L. S. (Linda S.)
Adams H. H. (Hieab H. H.)
Aguilar-Salinas C. A. (Carlos A.)
Ahmed M. (Meraj)
Akiyama M. (Masato)
Al-Mulla F. (Fahd)
Arbeeva L. (Liubov)
Arendt M. (Marina)
Arnett D. K. (Donna K.)
Asselbergs F. W. (Folkert W.)
Assimes T. L. (Themistocles L.)
Asvold B. O. (Bjorn Olav)
Attia J. (John)
Bandinelli S. (Stefania)
Baras A. (Aris)
Bechayda S. A. (Sonny Augustin)
Benjamins J. W. (Jan W.)
Bennett D. A. (David A.)
Bentley A. R. (Amy R.)
Beulens J. W. (Joline W. J.)
Bharadwaj D. (Dwaipayan)
Bhatti F. (Fatima)
Bielak L. F. (Lawrence F.)
Biino G. (Ginevra)
Bis J. C. (Joshua C.)
Black C. (Corri)
Boehnke M. (Michael)
Boger C. A. (Carsten A.)
Bollepalli S. (Sailalitha)
Boomsma D. I. (Dorret, I)
Bork-Jensen J. (Jette)
Bouchard C. (Claude)
Bradfield J. P. (Jonathan P.)
Bradford Y. (Yuki)
Brandslund I. (Ivan)
Braund P. S. (Peter S.)
Brody J. A. (Jennifer A.)
Brown C. D. (Christopher D.)
Brown M. (Morris)
Brown M. R. (Michael R.)
Brumat M. (Marco)
Brumpton B. M. (Ben M.)
Buring J. E. (Julie E.)
Cade B. E. (Brian E.)
Cai Q. (Qiuyin)
Campbell A. (Archie)
Campbell H. (Harry)
Canadas-Garre M. (Marisa)
Caulfield M. J. (Mark J.)
Chai J. F. (Jin Fang)
Chai X. (Xiaoran)
Chambers J. C. (John C.)
Chandak G. R. (Giriraj R.)
Chang K.-M. (Kyong-Mi)
Chasman D. I. (Daniel, I)
Chaturvedi N. (Nish)
Chen S. (Shufeng)
Chen Y. E. (Y. Eugene)
Chen Y. I. (Yii-Der Ida)
Chen Z. (Zhengming)
Cheng C.-Y. (Ching-Yu)
Chitrala K. N. (Kumaraswamy Naidu)
Cho K. (Kelly)
Cho Y. S. (Yoon Shin)
Choi H. S. (Hyeok Sun)
Choudhury A. (Ananyo)
Christensen H. (Henry)
Christensen K. (Kaare)
Christofidou P. (Paraskevi)
Ciullo M. (Marina)
Clarke S. L. (Shoa L.)
Concas M. P. (Maria Pina)
Correa A. (Adolfo)
Couture C. (Christian)
Cruz M. (Miguel)
Cucca F. (Francesco)
Cuellar-Partida G. (Gabriel)
Cupples L. A. (L. Adrienne)
Damrauer S. M. (Scott M.)
Dantoft T. M. (Thomas M.)
Daviglus M. (Martha)
Daw E. W. (E. Warwick)
de Borst G. J. (Gert J.)
de Geus E. J. (Eco J. C.)
de Graaf J. (Jacqueline)
De Jager P. L. (Philip L.)
de Kleijn D. (Dominique)
de Silva H. J. (H. Janaka)
de Vries P. S. (Paul S.)
Dedoussis G. (George)
Delgado G. E. (Graciela E.)
Deloukas P. (Panos)
den Hollander A. I. (Anneke, I)
Dorajoo R. (Rajkumar)
Ekoru K. (Kenneth)
Elders P. J. (Petra J. M.)
Engmann J. (Jorgen)
Erdmann J. (Jeanette)
Evans M. K. (Michele K.)
Farmaki A.-E. (Aliki-Eleni)
Faul J. D. (Jessica D.)
Feitosa M. F. (Mary F.)
Feng Q. (QiPing)
Fernandez-Lopez J. C. (Juan Carlos)
Fiorillo E. (Edoardo)
Forer L. (Lukas)
Fornage M. (Myriam)
Franke A. (Andre)
Franks P. W. (Paul W.)
Frayling T. M. (Timothy M.)
Freitag-Wolf S. (Sandra)
Fuchsberger C. (Christian)
Galesloot T. E. (Tessel E.)
Gao Z. (Zishan)
Gaziano J. M. (John M.)
Ghanbari M. (Mohsen)
Giannakopoulou O. (Olga)
Giardoglou T. (Tota)
Gieger C. (Christian)
Girotto G. (Giorgia)
Giulianini F. (Franco)
Goel A. (Anuj)
Golightly Y. M. (Yvonne M.)
Gorski M. (Mathias)
Graff M. (Mariaelisa)
Graham S. E. (Sarah E.)
Grant S. F. (Struan F. A.)
Grarup N. (Niels)
Gu D. (Dongfeng)
Gudbjartsson D. F. (Daniel F.)
Gudnason V. (Vilmundur)
Guo X. (Xiuqing)
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Haessler J. (Jeffrey)
Hakonarson H. (Hakon)
Han S. (Sohee)
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Hayes M. G. (M. Geoffrey)
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Ho Y.-L. (Yuk-Lam)
Hoefer I. E. (Imo E.)
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Holm H. (Hilma)
Holmes M. V. (Michael, V)
Homuth G. (Georg)
Hottenga J. J. (Jouke Jan)
Huang H. (Hongyan)
Huang J. (Jianfeng)
Huang W. (Wei)
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Hui Q. (Qin)
Hung Y.-J. (Yi-Jen)
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Huo S. (Shaofeng)
Hutri-Kahonen N. (Nina)
Hveem K. (Kristian)
Hwang M. Y. (Mi Yeong)
Ichihara S. (Sahoko)
Iha H. (Hiroyuki)
Ikeda D. D. (Daisuke D.)
Ikram M. A. (M. Arfan)
Ingelsson E. (Erik)
Irvin M. R. (Marguerite R.)
Jackson A. U. (Anne U.)
Jackson R. D. (Rebecca D.)
Jager S. (Susanne)
Jang H.-M. (Hye-Mi)
Jarvik G. P. (Gail P.)
Ji Y. (Yingji)
Jockel K.-H. (Karl-Heinz)
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Joshi P. K. (Peter K.)
Jousilahti P. (Pekka)
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Jung B. (Bettina)
Justice A. E. (Anne E.)
Järvelin M.-R. (Marjo-Riitta)
Kahonen M. (Mika)
Kamatani Y. (Yoichiro)
Kanai M. (Masahiro)
Kanoni S. (Stavroula)
Kaprio J. (Jaakko)
Kardia S. L. (Sharon L. R.)
Karhus L. L. (Line L.)
Karpe F. (Fredrik)
Kathiresan S. (Sekar)
Kato N. (Norihiro)
Katsuya T. (Tomohiro)
Kawaguchi T. (Takahisa)
Kee F. (Frank)
Kember R. L. (Rachel L.)
Kentistou K. A. (Katherine A.)
Khera A. V. (Amit, V)
Khor C. C. (Chiea Chuen)
Kiemeney L. A. (Lambertus A. L. M.)
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Kim E. K. (Eung Kweon)
Kim H.-L. (Hyung-Lae)
Kim H.-N. (Han-Na)
Kim Y. J. (Young Jin)
Kivimaki M. (Mika)
Klarin D. (Derek)
Kleber M. E. (Marcus E.)
Koh W.-P. (Woon-Puay)
Koistinen H. A. (Heikki A.)
Kolcic I. (Ivana)
Kooner J. S. (Jaspal S.)
Kooperberg C. (Charles)
Kovacs P. (Peter)
Kraaijeveld A. O. (Adriaan O.)
Kraft P. (Peter)
Krauss R. M. (Ronald M.)
Kronenberg F. (Florian)
Kubo M. (Michiaki)
Kumari M. (Meena)
Kurbasic A. (Azra)
Kutalik Z. (Zoltan)
Kuusisto J. (Johanna)
Laakso M. (Markku)
Lamina C. (Claudia)
Lange L. A. (Leslie A.)
Langenberg C. (Claudia)
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Lee H. (Hyejin)
Lee J. (Jiwon)
Lee J. Y. (Jong Young)
Lehtimaki T. (Terho)
Leonard H. L. (Hampton L.)
Lettre G. (Guillaume)
Li H. (Huaixing)
Li L. (Liming)
Li X. (Xiaohui)
Li X. (Xiaoyin)
Lieb W. (Wolfgang)
Lin K. (Kuang)
Lin M. (Maoxuan)
Lin S.-Y. (Shih-Yi)
Lin X. (Xu)
Lind L. (Lars)
Lingren T. (Todd)
Linneberg A. (Allan)
Liu F. (Fangchao)
Liu J. (Jianjun)
Liu J. (Jun)
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Locke A. E. (Adam E.)
Loeffler M. (Markus)
Long J. (Jirong)
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Loukola A. (Anu)
Lu F. (Fan)
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Luan J. (Jian'an)
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Munz M. (Matthias)
Murakami Y. (Yoshinori)
Männikkö M. (Minna)
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Ramirez J. (Julia)
Ramsay M. (Michele)
Rao D. C. (D. C.)
Rasheed A. (Asif)
Rasheed H. (Humaira)
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Redline S. (Susan)
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Rotter J. I. (Jerome, I)
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Ruotsalainen S. E. (Sanni E.)
Ryu S. (Seungho)
Sabanayagam C. (Charumathi)
Sabater-Lleal M. (Maria)
Sakaue S. (Saori)
Saleheen D. (Danish)
Salomaa V. (Veikko)
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Sattar N. (Naveed)
Schmidt B. (Borge)
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Schmidt H. (Helena)
Schmidt R. (Reinhold)
Scholz M. (Markus)
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Schunkert H. (Heribert)
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Scott R. J. (Rodney J.)
Sever P. (Peter)
Shin J. H. (Jae Hun)
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Sun Y. V. (Yan, V)
Sung Y. J. (Yun Ju)
Surakka I. (Ida)
Tabara Y. (Yasuharu)
Tai E. S. (E. Shyong)
Takeuchi F. (Fumihiko)
Tamiya G. (Gen)
Tardif J.-C. (Jean-Claude)
Terao C. (Chikashi)
Terzikhan N. (Natalie)
Thanaraj T. A. (Thangavel Alphonse)
Theusch E. (Elizabeth)
Thiery J. (Joachim)
Thorleifsson G. (Gudmar)
Thorsteinsdottir U. (Unnur)
Thuesen B. H. (Betina H.)
Timmers P. R. (Paul R. H. J.)
Timpson N. J. (Nicholas J.)
Tonjes A. (Anke)
Trembath R. C. (Richard C.)
Trivedi B. (Bhavi)
Trompet S. (Stella)
Tsao P. S. (Philip S.)
Turman C. (Constance)
Tusie-Luna T. (Teresa)
Vaccargiu S. (Simona)
van Dam R. M. (Rob M.)
van der Harst P. (Pim)
van Der Laan S. W. (Sander W.)
van der Most P. J. (Peter J.)
van Dijk K. W. (Ko Willems)
van Duijn C. M. (Cornelia M.)
van Heel D. A. (David A.)
van Meurs J. B. (Joyce B. J.)
van Setten J. (Jessica)
Vedantam S. (Sailaja)
Verma A. (Anurag)
Verweij N. (Niek)
Vestergaard H. (Henrik)
Veturi Y. (Yogasudha)
Villalpando C. G. (Clicerio Gonzalez)
Vitart V. (Veronique)
Volzke H. (Henry)
Walker M. (Mark)
Walters R. G. (Robin G.)
Wang C. (Chaolong)
Wang C. A. (Carol A.)
Wang J.-S. (Jun-Sing)
Wang Y. X. (Ya Xing)
Wareham N. J. (Nicholas J.)
Warner S. C. (Sophie C.)
Warren H. R. (Helen R.)
Watkins H. (Hugh)
Wei W. B. (Wen B.)
Wei W.-Q. (Wei-Qi)
Weir D. R. (David R.)
Weiss S. (Stefan)
Whitfield J. B. (John B.)
Wickremasinghe A. R. (Ananda R.)
Widen E. (Elisabeth)
Wielscher M. (Matthias)
Wild S. H. (Sarah H.)
Willemsen G. (Gonneke)
Willer C. J. (Cristen J.)
Wilson J. F. (James F.)
Wilson J. G. (James G.)
Wilson P. (Peter)
Winkler T. W. (Thomas W.)
Wojczynski M. K. (Mary K.)
Wong A. (Andrew)
Wong T.-Y. (Tien-Yin)
Woo J.-T. (Jeong-Taek)
Wood A. R. (Andrew R.)
Wu J.-Y. (Jer-Yuarn)
Wu K. H. (Kuan-Han H.)
Xia R. (Rui)
Xue C. (Chao)
Yajnik C. S. (Chittaranjan S.)
Yamamoto M. (Masayuki)
Yang B. (Bin)
Yang J. (Jian)
Yang J. (Jingyun)
Yao J. (Jie)
Yin X. (Xianyong)
Yokota M. (Mitsuhiro)
Yoon K. (Kyungheon)
Young K. L. (Kristin L.)
Yu K. (Ketian)
Yuan J.-M. (Jian-Min)
Zajac G. J. (Greg J. M.)
Zeggini E. (Eleftheria)
Zeng L. (Lingyao)
Zhang J. (Jifeng)
Zhang W. (Weihua)
Zhao J.-H. (Jing-Hua)
Zhao W. (Wei)
Zheng W. (Wei)
Zhou W. (Wei)
Zhu X. (Xiang)
Zhu X. (Xiaofeng)
Zilhao N. R. (Nuno R.)
Zimmermann M. E. (Martina E.)
Zmuda J. M. (Joseph M.)
Zonderman A. B. (Alan B.)
Publication venue: Springer Nature
Publication date: 01/01/2021
Field of study

Abstract Increased blood lipid levels are heritable risk factors of cardiovascular disease with varied prevalence worldwide owing to different dietary patterns and medication use1. Despite advances in prevention and treatment, in particular through reducing low-density lipoprotein cholesterol levels2, heart disease remains the leading cause of death worldwide3. Genome-wideassociation studies (GWAS) of blood lipid levels have led to important biological and clinical insights, as well as new drug targets, for cardiovascular disease. However, most previous GWAS4‐23 have been conducted in European ancestry populations and may have missed genetic variants that contribute to lipid-level variation in other ancestry groups. These include differences in allele frequencies, effect sizes and linkage-disequilibrium patterns24. Here we conduct a multi-ancestry, genome-wide genetic discovery meta-analysis of lipid levels in approximately 1.65 million individuals, including 350,000 of non-European ancestries. We quantify the gain in studying non-European ancestries and provide evidence to support the expansion of recruitment of additional ancestries, even with relatively small sample sizes. We find that increasing diversity rather than studying additional individuals of European ancestry results in substantial improvements in fine-mapping functional variants and portability of polygenic prediction (evaluated in approximately 295,000 individuals from 7 ancestry groupings). Modest gains in the number of discovered loci and ancestry-specific variants were also achieved. As GWAS expand emphasis beyond the identification of genes and fundamental biology towards the use of genetic variants for preventive and precision medicine25, we anticipate that increased diversity of participants will lead to more accurate and equitable26 application of polygenic scores in clinical practice

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