H
Heather Prowse Data-verified
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Researcher
unknown
4 h-index
5 pubs
732 cited
Research Areas
Links
Biography and Research Information
OverviewAI-generated summary
Heather Prowse investigates host-pathogen interactions and immune responses in acute infections, including sepsis and viral illnesses. Her research utilizes transcriptomic and proteomic approaches to identify biomarkers and mechanisms underlying patient stratification and disease progression. Prowse has published work on developing an immune dysfunction score based on whole-blood gene expression for stratifying patients with acute infections. She has also employed high-throughput mass spectrometry to map the plasma proteome in sepsis and to identify differences in patient responses. Further research has focused on utilizing eQTLs to understand regulatory networks and drivers of variation in individual sepsis responses. Additionally, her work includes investigating the contributions of DNA sequences to gene regulation in yeast. Prowse's scholarship metrics include an h-index of 4 with 721 total citations across 5 publications.
Metrics
- h-index: 4
- Publications: 5
- Citations: 732
Selected Publications
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Assessing contributions of DNA sequences at the 3’ end of a yeast gene on yFACT, RNA polymerase II, and nucleosome occupancy (2024)
Collaboration Network
Top Collaborators
Katie L. Burnham
Wellcome Sanger Institute (GB)
3 shared publications
- An immune dysfunction score for stratification of patients with acute infection based on whole-blood gene expression
- High-throughput mass spectrometry maps the sepsis plasma proteome and differences in patient response
- eQTLs identify regulatory networks and drivers of variation in the individual response to sepsis
Andrew Kwok
Centre for Human Genetics (GB)
2 shared publications
- An immune dysfunction score for stratification of patients with acute infection based on whole-blood gene expression
- eQTLs identify regulatory networks and drivers of variation in the individual response to sepsis
David Antcliffe
2 shared publications
- An immune dysfunction score for stratification of patients with acute infection based on whole-blood gene expression
- High-throughput mass spectrometry maps the sepsis plasma proteome and differences in patient response
Stuart McKechnie
Wellcome Sanger Institute (GB)
2 shared publications
- An immune dysfunction score for stratification of patients with acute infection based on whole-blood gene expression
- High-throughput mass spectrometry maps the sepsis plasma proteome and differences in patient response
Anthony Gordon
Oxford Centre for Diabetes, Endocrinology and Metabolism (GB)
2 shared publications
- An immune dysfunction score for stratification of patients with acute infection based on whole-blood gene expression
- High-throughput mass spectrometry maps the sepsis plasma proteome and differences in patient response
Emma E. Davenport
University of Oxford (GB)
2 shared publications
- An immune dysfunction score for stratification of patients with acute infection based on whole-blood gene expression
- High-throughput mass spectrometry maps the sepsis plasma proteome and differences in patient response
Nigel R. Webster
2 shared publications
- An immune dysfunction score for stratification of patients with acute infection based on whole-blood gene expression
- eQTLs identify regulatory networks and drivers of variation in the individual response to sepsis
Helen F. Galley
2 shared publications
- An immune dysfunction score for stratification of patients with acute infection based on whole-blood gene expression
- eQTLs identify regulatory networks and drivers of variation in the individual response to sepsis
Jane R. Taylor
2 shared publications
- An immune dysfunction score for stratification of patients with acute infection based on whole-blood gene expression
- eQTLs identify regulatory networks and drivers of variation in the individual response to sepsis
Sally Hall
2 shared publications
- An immune dysfunction score for stratification of patients with acute infection based on whole-blood gene expression
- eQTLs identify regulatory networks and drivers of variation in the individual response to sepsis
Jenni Addison
2 shared publications
- An immune dysfunction score for stratification of patients with acute infection based on whole-blood gene expression
- eQTLs identify regulatory networks and drivers of variation in the individual response to sepsis
Siân Roughton
2 shared publications
- An immune dysfunction score for stratification of patients with acute infection based on whole-blood gene expression
- eQTLs identify regulatory networks and drivers of variation in the individual response to sepsis
Heather Tennant
2 shared publications
- An immune dysfunction score for stratification of patients with acute infection based on whole-blood gene expression
- eQTLs identify regulatory networks and drivers of variation in the individual response to sepsis
Achyut Guleri
2 shared publications
- An immune dysfunction score for stratification of patients with acute infection based on whole-blood gene expression
- eQTLs identify regulatory networks and drivers of variation in the individual response to sepsis
Yuxin Mi
Centre for Human Genetics (GB)
2 shared publications
- High-throughput mass spectrometry maps the sepsis plasma proteome and differences in patient response
- eQTLs identify regulatory networks and drivers of variation in the individual response to sepsis
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