Login
Register
Need Help?
ABOUT
ABOUT THE EGA
EGA
Privacy Notice
Security
Team
STATISTICS
Bibliography
Growth
Community
Archive
Distribution
Catalog
PROJECTS AND FUNDERS
Projects
Funders
GA4GH
Federated EGA
Beacon
DISCOVERY
CATALOGUE
Studies
Datasets
DACs
Synthetic Data
METADATA
Search Box
Public Metadata API
SUBMISSION
DATA
File preparation
Uploading files
METADATA
EGA Schema
Sequencing & Phenotype
Submitter Portal
Submitter Portal API
Array
Programmatic Submission XML
ACCESS
DATA ACCESS COMMITTEE
What is a DAC?
Best Practices
DAC Portal
Data Use Conditions
REQUEST DATA
How to request data?
Quality Control Reports
DOWNLOAD
Metadata
Files
PyEGA3
Live Outbox
Visualisation
FUSE Client
EGA QuickView
Tips on how to search
DACs
EGAC00001002406
Women’s Health Integrated Research Center Data Access Committee
Contact Information
Thomas Conrads
conrads@whirc.org
Request Access
This DAC controls 1 dataset
Dataset ID
Description
Technology
Samples
EGAD00001008344
Enriched tumor epithelium, tumor-associated stroma, and whole tissue were collected by laser microdissection from thin sections across spatially separated levels of ten high-grade serous ovarian carcinomas (HGSOCs) and analyzed by mass spectrometry, reverse phase protein arrays, and RNA sequencing. Unsupervised analyses of protein abundance data revealed independent clustering of an enriched stroma and enriched tumor epithelium, with whole tumor tissue clustering driven by overall tumor “purity.” Comparing these data to previously defined prognostic HGSOC molecular subtypes revealed protein and transcript expression from tumor epithelium correlated with the differentiated subtype, whereas stromal proteins (and transcripts) correlated with the mesenchymal subtype. Protein and transcript abundance in the tumor epithelium and stroma exhibited decreased correlation in samples collected just hundreds of microns apart. These data reveal substantial tumor microenvironment protein heterogeneity that directly bears on prognostic signatures, biomarker discovery, and cancer pathophysiology and underscore the need to enrich cellular subpopulations for expression profiling.
Ion Torrent S5 XL
49