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Center for Life Sciences Harvard Medical Sch... 1 Department of Cell Biology Yale University S... 1 Department of Computer Science Purdue Univer... 1 Department of Computer Science Purdue Univer... 1 Department of Genetics Yale University Schoo... 1 Institute of Molecular Genetics of the ASCR ... 1 Molecular Pharmacology Program Memorial Sloa... 1 Population Health Sciences Institute Newcast... 1 Public Health Dynamics Laboratory Graduate S... 1
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- Qi, Yuan
- Fang, Youhan
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Sinclair, David R
Author Sinclair, David R Population Health Sciences Institute, Newcastle University, Newcastle upon Tyne, United Kingdom. Public Health Dynamics Laboratory, Graduate School of Public Health, University of Pittsburgh, Pittsburgh, PA, United States of America. Department of Health Policy and Management, Graduate School of Public Health, University of Pittsburgh, Pittsburgh, PA, United States of America
- Guo, Shangqin
- Alberich-Jorda, Meritxell
- Lu, Jun
- Tenen, Daniel G
- Kharas, Michael G
- Pyne, Saumyadipta
NLK
Directory of Open Access Journals
from 2006
Free Medical Journals
from 2006
Public Library of Science (PLoS)
from 2006
PubMed Central
from 2006
Europe PubMed Central
from 2006
ProQuest Central
from 2006-12-01
Open Access Digital Library
from 2006-01-01
Open Access Digital Library
from 2006-10-01
Open Access Digital Library
from 2006-01-01
Medline Complete (EBSCOhost)
from 2008-01-01
Nursing & Allied Health Database (ProQuest)
from 2006-12-01
Health & Medicine (ProQuest)
from 2006-12-01
Public Health Database (ProQuest)
from 2006-12-01
ROAD: Directory of Open Access Scholarly Resources
from 2006
PubMed
32045462
DOI
10.1371/journal.pone.0228651
Knihovny.cz E-resources
A new computational framework for FLow cytometric Analysis of Rare Events (FLARE) has been developed specifically for fast and automatic identification of rare cell populations in very large samples generated by platforms like multi-parametric flow cytometry. Using a hierarchical Bayesian model and information-sharing via parallel computation, FLARE rapidly explores the high-dimensional marker-space to detect highly rare populations that are consistent across multiple samples. Further it can focus within specified regions of interest in marker-space to detect subpopulations with desired precision.
- MeSH
- Automation, Laboratory methods MeSH
- Probability MeSH
- Flow Cytometry methods MeSH
- Models, Theoretical * MeSH
- Publication type
- Journal Article MeSH
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