Single cell transcriptomics identifies a signaling network coordinating endoderm and mesoderm diversification during foregut organogenesis

Single cell transcriptomics identifies a signaling network coordinating endoderm and mesoderm diversification during foregut organogenesis

The fetal murine foregut develops into visceral organs via interactions between the mesoderm and endoderm, but how is unclear. Here, the authors use single cell RNAseq to show a diversity in organ specific splanchnic mesoderm cell-types, infer a signalling network governing organogenesis and use thi...

Descripción completa

Guardado en:
Detalles Bibliográficos
Autores principales: Lu Han, Praneet Chaturvedi, Keishi Kishimoto, Hiroyuki Koike, Talia Nasr, Kentaro Iwasawa, Kirsten Giesbrecht, Phillip C. Witcher, Alexandra Eicher, Lauren Haines, Yarim Lee, John M. Shannon, Mitsuru Morimoto, James M. Wells, Takanori Takebe, Aaron M. Zorn
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2020
Materias:
Science
Q
Acceso en línea:https://doaj.org/article/0ee51be150a74c26a536081300641197
Etiquetas: Agregar Etiqueta
Sin Etiquetas, Sea el primero en etiquetar este registro!
id oai:doaj.org-article:0ee51be150a74c26a536081300641197
record_format dspace
spelling oai:doaj.org-article:0ee51be150a74c26a5360813006411972021-12-02T19:02:25ZSingle cell transcriptomics identifies a signaling network coordinating endoderm and mesoderm diversification during foregut organogenesis10.1038/s41467-020-17968-x2041-1723https://doaj.org/article/0ee51be150a74c26a5360813006411972020-08-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-17968-xhttps://doaj.org/toc/2041-1723The fetal murine foregut develops into visceral organs via interactions between the mesoderm and endoderm, but how is unclear. Here, the authors use single cell RNAseq to show a diversity in organ specific splanchnic mesoderm cell-types, infer a signalling network governing organogenesis and use this to differentiate human pluripotent stem cells.Lu HanPraneet ChaturvediKeishi KishimotoHiroyuki KoikeTalia NasrKentaro IwasawaKirsten GiesbrechtPhillip C. WitcherAlexandra EicherLauren HainesYarim LeeJohn M. ShannonMitsuru MorimotoJames M. WellsTakanori TakebeAaron M. ZornNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-16 (2020)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Lu Han
Praneet Chaturvedi
Keishi Kishimoto
Hiroyuki Koike
Talia Nasr
Kentaro Iwasawa
Kirsten Giesbrecht
Phillip C. Witcher
Alexandra Eicher
Lauren Haines
Yarim Lee
John M. Shannon
Mitsuru Morimoto
James M. Wells
Takanori Takebe
Aaron M. Zorn
Single cell transcriptomics identifies a signaling network coordinating endoderm and mesoderm diversification during foregut organogenesis
description The fetal murine foregut develops into visceral organs via interactions between the mesoderm and endoderm, but how is unclear. Here, the authors use single cell RNAseq to show a diversity in organ specific splanchnic mesoderm cell-types, infer a signalling network governing organogenesis and use this to differentiate human pluripotent stem cells.
format article
author Lu Han
Praneet Chaturvedi
Keishi Kishimoto
Hiroyuki Koike
Talia Nasr
Kentaro Iwasawa
Kirsten Giesbrecht
Phillip C. Witcher
Alexandra Eicher
Lauren Haines
Yarim Lee
John M. Shannon
Mitsuru Morimoto
James M. Wells
Takanori Takebe
Aaron M. Zorn
author_facet Lu Han
Praneet Chaturvedi
Keishi Kishimoto
Hiroyuki Koike
Talia Nasr
Kentaro Iwasawa
Kirsten Giesbrecht
Phillip C. Witcher
Alexandra Eicher
Lauren Haines
Yarim Lee
John M. Shannon
Mitsuru Morimoto
James M. Wells
Takanori Takebe
Aaron M. Zorn
author_sort Lu Han
title Single cell transcriptomics identifies a signaling network coordinating endoderm and mesoderm diversification during foregut organogenesis
title_short Single cell transcriptomics identifies a signaling network coordinating endoderm and mesoderm diversification during foregut organogenesis
title_full Single cell transcriptomics identifies a signaling network coordinating endoderm and mesoderm diversification during foregut organogenesis
title_fullStr Single cell transcriptomics identifies a signaling network coordinating endoderm and mesoderm diversification during foregut organogenesis
title_full_unstemmed Single cell transcriptomics identifies a signaling network coordinating endoderm and mesoderm diversification during foregut organogenesis
title_sort single cell transcriptomics identifies a signaling network coordinating endoderm and mesoderm diversification during foregut organogenesis
publisher Nature Portfolio
publishDate 2020
url https://doaj.org/article/0ee51be150a74c26a536081300641197
work_keys_str_mv AT luhan singlecelltranscriptomicsidentifiesasignalingnetworkcoordinatingendodermandmesodermdiversificationduringforegutorganogenesis
AT praneetchaturvedi singlecelltranscriptomicsidentifiesasignalingnetworkcoordinatingendodermandmesodermdiversificationduringforegutorganogenesis
AT keishikishimoto singlecelltranscriptomicsidentifiesasignalingnetworkcoordinatingendodermandmesodermdiversificationduringforegutorganogenesis
AT hiroyukikoike singlecelltranscriptomicsidentifiesasignalingnetworkcoordinatingendodermandmesodermdiversificationduringforegutorganogenesis
AT talianasr singlecelltranscriptomicsidentifiesasignalingnetworkcoordinatingendodermandmesodermdiversificationduringforegutorganogenesis
AT kentaroiwasawa singlecelltranscriptomicsidentifiesasignalingnetworkcoordinatingendodermandmesodermdiversificationduringforegutorganogenesis
AT kirstengiesbrecht singlecelltranscriptomicsidentifiesasignalingnetworkcoordinatingendodermandmesodermdiversificationduringforegutorganogenesis
AT phillipcwitcher singlecelltranscriptomicsidentifiesasignalingnetworkcoordinatingendodermandmesodermdiversificationduringforegutorganogenesis
AT alexandraeicher singlecelltranscriptomicsidentifiesasignalingnetworkcoordinatingendodermandmesodermdiversificationduringforegutorganogenesis
AT laurenhaines singlecelltranscriptomicsidentifiesasignalingnetworkcoordinatingendodermandmesodermdiversificationduringforegutorganogenesis
AT yarimlee singlecelltranscriptomicsidentifiesasignalingnetworkcoordinatingendodermandmesodermdiversificationduringforegutorganogenesis
AT johnmshannon singlecelltranscriptomicsidentifiesasignalingnetworkcoordinatingendodermandmesodermdiversificationduringforegutorganogenesis
AT mitsurumorimoto singlecelltranscriptomicsidentifiesasignalingnetworkcoordinatingendodermandmesodermdiversificationduringforegutorganogenesis
AT jamesmwells singlecelltranscriptomicsidentifiesasignalingnetworkcoordinatingendodermandmesodermdiversificationduringforegutorganogenesis
AT takanoritakebe singlecelltranscriptomicsidentifiesasignalingnetworkcoordinatingendodermandmesodermdiversificationduringforegutorganogenesis
AT aaronmzorn singlecelltranscriptomicsidentifiesasignalingnetworkcoordinatingendodermandmesodermdiversificationduringforegutorganogenesis
_version_ 1718377249012449280

Ejemplares similares