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The Tabula Sapiens: A multiple-organ, single-cell transcriptomic atlas of humans.

Authors :
Tabula Sapiens Consortium*
Tabula Sapiens Consortium*
Jones, Robert C
Karkanias, Jim
Krasnow, Mark A
Pisco, Angela Oliveira
Quake, Stephen R
Salzman, Julia
Yosef, Nir
Bulthaup, Bryan
Brown, Phillip
Harper, William
Hemenez, Marisa
Ponnusamy, Ravikumar
Salehi, Ahmad
Sanagavarapu, Bhavani A
Spallino, Eileen
Aaron, Ksenia A
Concepcion, Waldo
Gardner, James M
Kelly, Burnett
Neidlinger, Nikole
Wang, Zifa
Crasta, Sheela
Kolluru, Saroja
Morri, Maurizio
Tan, Serena Y
Travaglini, Kyle J
Xu, Chenling
Alcántara-Hernández, Marcela
Almanzar, Nicole
Antony, Jane
Beyersdorf, Benjamin
Burhan, Deviana
Calcuttawala, Kruti
Carter, Matthew M
Chan, Charles KF
Chang, Charles A
Chang, Stephen
Colville, Alex
Culver, Rebecca N
Cvijović, Ivana
D'Amato, Gaetano
Ezran, Camille
Galdos, Francisco X
Gillich, Astrid
Goodyer, William R
Hang, Yan
Hayashi, Alyssa
Houshdaran, Sahar
Huang, Xianxi
Irwin, Juan C
Jang, SoRi
Juanico, Julia Vallve
Kershner, Aaron M
Kim, Soochi
Kiss, Bernhard
Kong, William
Kumar, Maya E
Kuo, Angera H
Leylek, Rebecca
Li, Baoxiang
Loeb, Gabriel B
Lu, Wan-Jin
Mantri, Sruthi
Markovic, Maxim
McAlpine, Patrick L
de Morree, Antoine
Mrouj, Karim
Mukherjee, Shravani
Muser, Tyler
Neuhöfer, Patrick
Nguyen, Thi D
Perez, Kimberly
Phansalkar, Ragini
Puluca, Nazan
Qi, Zhen
Rao, Poorvi
Raquer-McKay, Hayley
Schaum, Nicholas
Scott, Bronwyn
Seddighzadeh, Bobak
Segal, Joe
Sen, Sushmita
Sikandar, Shaheen
Spencer, Sean P
Steffes, Lea C
Subramaniam, Varun R
Swarup, Aditi
Swift, Michael
Van Treuren, Will
Trimm, Emily
Veizades, Stefan
Vijayakumar, Sivakamasundari
Vo, Kim Chi
Tabula Sapiens Consortium*
Tabula Sapiens Consortium*
Jones, Robert C
Karkanias, Jim
Krasnow, Mark A
Pisco, Angela Oliveira
Quake, Stephen R
Salzman, Julia
Yosef, Nir
Bulthaup, Bryan
Brown, Phillip
Harper, William
Hemenez, Marisa
Ponnusamy, Ravikumar
Salehi, Ahmad
Sanagavarapu, Bhavani A
Spallino, Eileen
Aaron, Ksenia A
Concepcion, Waldo
Gardner, James M
Kelly, Burnett
Neidlinger, Nikole
Wang, Zifa
Crasta, Sheela
Kolluru, Saroja
Morri, Maurizio
Tan, Serena Y
Travaglini, Kyle J
Xu, Chenling
Alcántara-Hernández, Marcela
Almanzar, Nicole
Antony, Jane
Beyersdorf, Benjamin
Burhan, Deviana
Calcuttawala, Kruti
Carter, Matthew M
Chan, Charles KF
Chang, Charles A
Chang, Stephen
Colville, Alex
Culver, Rebecca N
Cvijović, Ivana
D'Amato, Gaetano
Ezran, Camille
Galdos, Francisco X
Gillich, Astrid
Goodyer, William R
Hang, Yan
Hayashi, Alyssa
Houshdaran, Sahar
Huang, Xianxi
Irwin, Juan C
Jang, SoRi
Juanico, Julia Vallve
Kershner, Aaron M
Kim, Soochi
Kiss, Bernhard
Kong, William
Kumar, Maya E
Kuo, Angera H
Leylek, Rebecca
Li, Baoxiang
Loeb, Gabriel B
Lu, Wan-Jin
Mantri, Sruthi
Markovic, Maxim
McAlpine, Patrick L
de Morree, Antoine
Mrouj, Karim
Mukherjee, Shravani
Muser, Tyler
Neuhöfer, Patrick
Nguyen, Thi D
Perez, Kimberly
Phansalkar, Ragini
Puluca, Nazan
Qi, Zhen
Rao, Poorvi
Raquer-McKay, Hayley
Schaum, Nicholas
Scott, Bronwyn
Seddighzadeh, Bobak
Segal, Joe
Sen, Sushmita
Sikandar, Shaheen
Spencer, Sean P
Steffes, Lea C
Subramaniam, Varun R
Swarup, Aditi
Swift, Michael
Van Treuren, Will
Trimm, Emily
Veizades, Stefan
Vijayakumar, Sivakamasundari
Vo, Kim Chi
Source :
Science (New York, N.Y.); vol 376, iss 6594, eabl4896; 0036-8075
Publication Year :
2022

Abstract

Molecular characterization of cell types using single-cell transcriptome sequencing is revolutionizing cell biology and enabling new insights into the physiology of human organs. We created a human reference atlas comprising nearly 500,000 cells from 24 different tissues and organs, many from the same donor. This atlas enabled molecular characterization of more than 400 cell types, their distribution across tissues, and tissue-specific variation in gene expression. Using multiple tissues from a single donor enabled identification of the clonal distribution of T cells between tissues, identification of the tissue-specific mutation rate in B cells, and analysis of the cell cycle state and proliferative potential of shared cell types across tissues. Cell type-specific RNA splicing was discovered and analyzed across tissues within an individual.

Details

Database :
OAIster
Journal :
Science (New York, N.Y.); vol 376, iss 6594, eabl4896; 0036-8075
Notes :
application/pdf, Science (New York, N.Y.) vol 376, iss 6594, eabl4896 0036-8075
Publication Type :
Electronic Resource
Accession number :
edsoai.on1391584454
Document Type :
Electronic Resource