Genome maps across 26 human populations reveal population-specific patterns of structural variation

Large structural variants (SV) are understudied in human genetics research because of the difficulty to detect them in the routinely generated short-read sequencing data. Here, the authors generate optical genome maps of 154 individuals from 26 populations that allow comprehensive examination of lar...

Descripción completa

Guardado en:
Detalles Bibliográficos
Autores principales: Michal Levy-Sakin, Steven Pastor, Yulia Mostovoy, Le Li, Alden K. Y. Leung, Jennifer McCaffrey, Eleanor Young, Ernest T. Lam, Alex R. Hastie, Karen H. Y. Wong, Claire Y. L. Chung, Walfred Ma, Justin Sibert, Ramakrishnan Rajagopalan, Nana Jin, Eugene Y. C. Chow, Catherine Chu, Annie Poon, Chin Lin, Ahmed Naguib, Wei-Ping Wang, Han Cao, Ting-Fung Chan, Kevin Y. Yip, Ming Xiao, Pui-Yan Kwok
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2019
Materias:
Q
Acceso en línea:https://doaj.org/article/91ad69cc6ebb4dd28ba0a08624df46fd
Etiquetas: Agregar Etiqueta
Sin Etiquetas, Sea el primero en etiquetar este registro!
id oai:doaj.org-article:91ad69cc6ebb4dd28ba0a08624df46fd
record_format dspace
spelling oai:doaj.org-article:91ad69cc6ebb4dd28ba0a08624df46fd2021-12-02T16:58:05ZGenome maps across 26 human populations reveal population-specific patterns of structural variation10.1038/s41467-019-08992-72041-1723https://doaj.org/article/91ad69cc6ebb4dd28ba0a08624df46fd2019-03-01T00:00:00Zhttps://doi.org/10.1038/s41467-019-08992-7https://doaj.org/toc/2041-1723Large structural variants (SV) are understudied in human genetics research because of the difficulty to detect them in the routinely generated short-read sequencing data. Here, the authors generate optical genome maps of 154 individuals from 26 populations that allow comprehensive examination of large SVs.Michal Levy-SakinSteven PastorYulia MostovoyLe LiAlden K. Y. LeungJennifer McCaffreyEleanor YoungErnest T. LamAlex R. HastieKaren H. Y. WongClaire Y. L. ChungWalfred MaJustin SibertRamakrishnan RajagopalanNana JinEugene Y. C. ChowCatherine ChuAnnie PoonChin LinAhmed NaguibWei-Ping WangHan CaoTing-Fung ChanKevin Y. YipMing XiaoPui-Yan KwokNature PortfolioarticleScienceQENNature Communications, Vol 10, Iss 1, Pp 1-14 (2019)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Michal Levy-Sakin
Steven Pastor
Yulia Mostovoy
Le Li
Alden K. Y. Leung
Jennifer McCaffrey
Eleanor Young
Ernest T. Lam
Alex R. Hastie
Karen H. Y. Wong
Claire Y. L. Chung
Walfred Ma
Justin Sibert
Ramakrishnan Rajagopalan
Nana Jin
Eugene Y. C. Chow
Catherine Chu
Annie Poon
Chin Lin
Ahmed Naguib
Wei-Ping Wang
Han Cao
Ting-Fung Chan
Kevin Y. Yip
Ming Xiao
Pui-Yan Kwok
Genome maps across 26 human populations reveal population-specific patterns of structural variation
description Large structural variants (SV) are understudied in human genetics research because of the difficulty to detect them in the routinely generated short-read sequencing data. Here, the authors generate optical genome maps of 154 individuals from 26 populations that allow comprehensive examination of large SVs.
format article
author Michal Levy-Sakin
Steven Pastor
Yulia Mostovoy
Le Li
Alden K. Y. Leung
Jennifer McCaffrey
Eleanor Young
Ernest T. Lam
Alex R. Hastie
Karen H. Y. Wong
Claire Y. L. Chung
Walfred Ma
Justin Sibert
Ramakrishnan Rajagopalan
Nana Jin
Eugene Y. C. Chow
Catherine Chu
Annie Poon
Chin Lin
Ahmed Naguib
Wei-Ping Wang
Han Cao
Ting-Fung Chan
Kevin Y. Yip
Ming Xiao
Pui-Yan Kwok
author_facet Michal Levy-Sakin
Steven Pastor
Yulia Mostovoy
Le Li
Alden K. Y. Leung
Jennifer McCaffrey
Eleanor Young
Ernest T. Lam
Alex R. Hastie
Karen H. Y. Wong
Claire Y. L. Chung
Walfred Ma
Justin Sibert
Ramakrishnan Rajagopalan
Nana Jin
Eugene Y. C. Chow
Catherine Chu
Annie Poon
Chin Lin
Ahmed Naguib
Wei-Ping Wang
Han Cao
Ting-Fung Chan
Kevin Y. Yip
Ming Xiao
Pui-Yan Kwok
author_sort Michal Levy-Sakin
title Genome maps across 26 human populations reveal population-specific patterns of structural variation
title_short Genome maps across 26 human populations reveal population-specific patterns of structural variation
title_full Genome maps across 26 human populations reveal population-specific patterns of structural variation
title_fullStr Genome maps across 26 human populations reveal population-specific patterns of structural variation
title_full_unstemmed Genome maps across 26 human populations reveal population-specific patterns of structural variation
title_sort genome maps across 26 human populations reveal population-specific patterns of structural variation
publisher Nature Portfolio
publishDate 2019
url https://doaj.org/article/91ad69cc6ebb4dd28ba0a08624df46fd
work_keys_str_mv AT michallevysakin genomemapsacross26humanpopulationsrevealpopulationspecificpatternsofstructuralvariation
AT stevenpastor genomemapsacross26humanpopulationsrevealpopulationspecificpatternsofstructuralvariation
AT yuliamostovoy genomemapsacross26humanpopulationsrevealpopulationspecificpatternsofstructuralvariation
AT leli genomemapsacross26humanpopulationsrevealpopulationspecificpatternsofstructuralvariation
AT aldenkyleung genomemapsacross26humanpopulationsrevealpopulationspecificpatternsofstructuralvariation
AT jennifermccaffrey genomemapsacross26humanpopulationsrevealpopulationspecificpatternsofstructuralvariation
AT eleanoryoung genomemapsacross26humanpopulationsrevealpopulationspecificpatternsofstructuralvariation
AT ernesttlam genomemapsacross26humanpopulationsrevealpopulationspecificpatternsofstructuralvariation
AT alexrhastie genomemapsacross26humanpopulationsrevealpopulationspecificpatternsofstructuralvariation
AT karenhywong genomemapsacross26humanpopulationsrevealpopulationspecificpatternsofstructuralvariation
AT claireylchung genomemapsacross26humanpopulationsrevealpopulationspecificpatternsofstructuralvariation
AT walfredma genomemapsacross26humanpopulationsrevealpopulationspecificpatternsofstructuralvariation
AT justinsibert genomemapsacross26humanpopulationsrevealpopulationspecificpatternsofstructuralvariation
AT ramakrishnanrajagopalan genomemapsacross26humanpopulationsrevealpopulationspecificpatternsofstructuralvariation
AT nanajin genomemapsacross26humanpopulationsrevealpopulationspecificpatternsofstructuralvariation
AT eugeneycchow genomemapsacross26humanpopulationsrevealpopulationspecificpatternsofstructuralvariation
AT catherinechu genomemapsacross26humanpopulationsrevealpopulationspecificpatternsofstructuralvariation
AT anniepoon genomemapsacross26humanpopulationsrevealpopulationspecificpatternsofstructuralvariation
AT chinlin genomemapsacross26humanpopulationsrevealpopulationspecificpatternsofstructuralvariation
AT ahmednaguib genomemapsacross26humanpopulationsrevealpopulationspecificpatternsofstructuralvariation
AT weipingwang genomemapsacross26humanpopulationsrevealpopulationspecificpatternsofstructuralvariation
AT hancao genomemapsacross26humanpopulationsrevealpopulationspecificpatternsofstructuralvariation
AT tingfungchan genomemapsacross26humanpopulationsrevealpopulationspecificpatternsofstructuralvariation
AT kevinyyip genomemapsacross26humanpopulationsrevealpopulationspecificpatternsofstructuralvariation
AT mingxiao genomemapsacross26humanpopulationsrevealpopulationspecificpatternsofstructuralvariation
AT puiyankwok genomemapsacross26humanpopulationsrevealpopulationspecificpatternsofstructuralvariation
_version_ 1718382400688357376