Adversarial domain translation networks for integrating large-scale atlas-level single-cell datasets.

Jidong Zhao ,Karim Mrouj,Angela Ruohao Wu,Patrick Neuhöfer,Michael F Clarke,Geoff Stanley,Julia Salzman,Aditi Agrawal,Stephen Chang,Lubert Stryer,Jonathan Z Long,Roozbeh Dehghannasiri,Kyle J Travaglini,Saba Nafees,Peng Li,Robert Schopler,Brian Yu,Sheela Crasta,Jalal Baruni,Jean Farup,Bo Wang,Ute Radespiel,Kerwyn Casey Huang,Shravani Mukherjee,Varun Ramanan Subramaniam,Lisbeth A Guethlein,Nicholas Schaum,Trygve E Bakken,Liqun Luo,Martine Perret,Isaac Bakerman,Jane Antony,Lolita Penland,Tom Montine,Peter Parham,Malachia Hoover,Anne D Yoder,Jim Karkanias,Ahmad Al-Moujahed,Kyle Awayan,Honor Paine,Shelly Huynh,Corinne Lautier,Irving L Weissman,Rene Sit,Ahmad Nabhan,Avin Veerakumar,Wan-Jin Lu,Amanda L Wiggenhorn,Camille Ezran,Kerriann M Casey,Maurizio Morri,Thomas A Rando,Stephen R Quake,Spyros Darmanis,Can Yang,Rebecca Lewis,E Christopher Kirk,Astrid Gillich,Seung K Kim,Megan A Albertelli,Jérémy Terrien,Jingsi Ming,Aditi Swarup,Bronwyn Scott,Zhixiang Lin,Silvana Konermann,Elias Godoy,Gefei Wang,Shixuan Liu,Carly Israel,Hannah K Frank,Song Eun Lee,Caitlin J Karanewsky,Venkata Naga Pranathi Vemuri,Bao Xiang,Andoni Urtasun,Scott D Boyd,Jengmin Kang,Biter Bilen,Rebecca Culver,Snigdha Agarwal,Lily Kim,Iwijn De Vlaminck,Yin Liu,Andrea R Yung,Rebecca D Hodge,Aris Taychameekiatchai,Mark A Krasnow,Sori Jang,Dita Gratzinger,Fabienne Aujard,Weilun Tan,Cathy V Williams,Rahul Sinha,Charles Chan,Albert Y Wu,Yue Zhang,Sheng Wang,Ming Chen,Paul Allegakoen,Jessica D’Addabbo,Connor V Duffy,Sivakamasundari Sivakamasundari,Jennifer Okamoto,Olga Botvinnik,Douglas Vollrath,Youcef Ouadah,Jacques Epelbaum,Yan Hang,Norma Neff,Franklin W Huang,Aaron Mcgeever,Jia Yan,Winston Koh,Shengda Lin,William Kong,Qiuyu Jing,Bruce Wang,Taichi Isobe,Robert C Jones,Andriamahery Razafindrakoto,Angela Oliveira Pisco,Deviana Burhan,Hannah Weinstein,Jozeph L Pendleton,Michael F Z Wang,Hajanirina Noëline Ravelonjanahary,Kazuteru Hasegawa,Alina Alam,Shilei Ding ,Justus M Kebschull ,Philip A Beachy ,Tony Wyss‐Coray ,Ed Lein ,Charles Chang ,Alexander J Tarashansky ,Liza J Shapiro ,James T Webber ,Ho-Su Sin ,Steven E Artandi ,Yan Wang ,Ankit S Baghel ,Christin S Kuo ,Antoine De Morrée ,Aaron M Kershner ,Ji-Qin Yang ,Ross J Metzger ,Margaret T Fuller ,Patricia C Wright ,Julia Eve Olivieri ,Gabriel B Loeb ,Katherine L Lucot ,Patricia K Nguyen ,Thomas H Ambrosi ,Jean‐Michel Verdier ,Francisco Espinoza ,Zhengjian Qi ,James E Ferrell ,Zhuofeng Zhao

doi:10.1038/s43588-022-00251-y

Abstract

The rapid emergence of large-scale atlas-level single-cell RNA-seq datasets presents remarkable opportunities for broad and deep biological investigations through integrative analyses. However, harmonizing such datasets requires integration approaches to be not only computationally scalable, but also capable of preserving a wide range of fine-grained cell populations. We have created Portal, a unified framework of adversarial domain translation to learn harmonized representations of datasets. When compared to other state-of-the-art methods, Portal achieves better performance for preserving biological variation during integration, while achieving the integration of millions of cells, in minutes, with low memory consumption. We show that Portal is widely applicable to integrating datasets across different samples, platforms and data types. We also apply Portal to the integration of cross-species datasets with limited shared information among them, elucidating biological insights into the similarities and divergences in the spermatogenesis process among mouse, macaque and human.

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