Toggle navigation
Home
About
Project overview
Policies
News
Contact
Data
Experiments
Annotations
Single Cell Embeddings
Statistical Models
Gene Perturbations
Data Standards & QC
Pipelines
Consortia
Publications
Tools
Single Cell Browser
Help
Getting started
Schema
Clear Filters
Annotation type
1
accessible chromatin
1
caQTL
1
eQTL
Annotation Category
2
Genetic variant effects
1
cis-regulatory elements
Annotation type Category
1
ATAC-seq
1
snATAC-seq
1
snRNA-seq
Available data
2
tsv
1
bed bed3
1
bed narrowPeak
File set status
3
released
Genome assembly (visualization)
1
GRCh38
Organism
3
Homo sapiens
Biosample type
3
primary cell
Biosample term
3
endothelial cell
Organ
12
musculature of body
3
epithelium
2
connective tissue
Life stage
3
adult
Date released
196
February, 2021
155
September, 2023
151
September, 2022
127
November, 2021
76
February, 2024
38
March, 2023
34
May, 2021
25
June, 2020
23
August, 2021
20
January, 2021
15
May, 2020
15
November, 2022
14
January, 2020
12
February, 2023
9
February, 2020
9
May, 2024
7
April, 2020
6
August, 2018
6
March, 2020
6
October, 2022
5
October, 2019
3
August, 2017
3
July, 2025
2
March, 2024
2
May, 2022
1
July, 2020
1
November, 2019
Software used
2
qTLtools
1
macs
Encyclopedia version
1
Endothelial.narrowpeak.bed.gz Endothelial.consensus_summit_features.bed.gz
Lab
3
Stephen Parker, UMich
Project
3
AMP
RFA
3
AMP2
Showing 3 of 3 results
table-tab-icon
matrix-icon
Download
FileSet
DSR644RFQ
released
Annotation file set
: Accessible chromatin annotation of each cell type cluster identified from snRNA+snATAC profiling of human skeletal muscle - endothelial cell
Lab:
Stephen Parker, UMich
Project:
AMP
FileSet
DSR726WRZ
released
Annotation file set
: caQTL results in each cell type cluster identified from snRNA+snATAC profiling of human skeletal muscle - endothelial cell
Lab:
Stephen Parker, UMich
Project:
AMP
FileSet
DSR178DLB
released
Annotation file set
: eQTL results in each cell type cluster identified from snRNA+snATAC profiling of human skeletal muscle - endothelial cell
Lab:
Stephen Parker, UMich
Project:
AMP