Aging imparts cell-autonomous dysfunction to regul... (ID 636305) - BioProject

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Accession: PRJNA636305 ID: 636305

Aging imparts cell-autonomous dysfunction to regulatory T cells during recovery from influenza pneumonia

This SuperSeries is composed of the SubSeries listed below. Overall design: Refer to individual Series

Accession	PRJNA636305; GEO: GSE151543
Type	Umbrella project
Publications	Morales-Nebreda L et al., "Aging imparts cell-autonomous dysfunction to regulatory T cells during recovery from influenza pneumonia.", JCI Insight, 2021 Mar 22;6(6)
Grants	"Disordered Proteostasis as a Driver of Disease in the Aging Lung" (Grant ID P01 AG049665, National Institute on Aging) "Medical Scientist Training Program" (Grant ID T32 GM008152, National Institute of General Medical Sciences) "Successful Clinical Response In Pneumonia Therapy (SCRIPT) Systems Biology Center" (Grant ID U19 AI135964, National Institute of Allergy and Infectious Diseases Extramural Activities) "Determinants of age-related regulatory T cell function during influenza A virus-induced lung injury." (Grant ID F32 HL151127, National Heart, Lung, and Blood Institute) "Regulatory T cell Uhrf1 and DNA methylation in repair of acute lung injury" (Grant ID K08 HL128867, National Heart, Lung, and Blood Institute) "Mechanisms of regulatory T cell-mediated recovery from severe influenza A virus infection" (Grant ID R01 HL149883, National Heart, Lung, and Blood Institute) "Training Program In Lung Sciences" (Grant ID T32 HL076139, National Heart, Lung, and Blood Institute) "Training Program In Lung Sciences" (Grant ID T32 HL076139, National Heart, Lung, and Blood Institute)
Submission	Registration date: 1-Jun-2020 Northwestern University Feinberg School of Medicine
Relevance	Superseries

Project Data:

Parameter	Value
Data volume, Supplementary Mbytes	292

Parameter	Value
Data volume, Gbases	111
Data volume, Mbytes	42044

Aging imparts cell-autonomous dysfunction to regulatory T cells during recovery from influenza pneumonia encompasses the following 2 sub-projects:

Project Type

Number of Projects

Epigenomics

BioProject accession	Organism	Title
PRJNA636351	Mus musculus	Aging imparts cell-autonomous dysfunction to regulatory T cells during recovery from influenza pneumonia [DNA methylation/RRBS] (Northwestern University Feinberg...)

Transcriptome or Gene expression

BioProject accession	Organism	Title
PRJNA636352	Mus musculus	Aging imparts cell-autonomous dysfunction to regulatory T cells during recovery from influenza pneumonia [RNA-seq] (Northwestern University Feinberg...)

Supplemental Content

Aging imparts cell-autonomous dysfunction to regulatory T cells during recovery ...
Aging imparts cell-autonomous dysfunction to regulatory T cells during recovery from influenza pneumonia
Aging imparts cell-autonomous dysfunction to regulatory T cells during recovery from influenza pneumonia

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