Uncovering epidemiological dynamics in heterogeneous host populations using phylogenetic methods
about
The evolution of Ebola virus: Insights from the 2013–2016 epidemicPhylodynamics with Migration: A Computational Framework to Quantify Population Structure from Genomic DataPhylodynamic analysis of HIV sub-epidemics in Mochudi, BotswanaProbabilistic models of eukaryotic evolution: time for integrationHow well can the exponential-growth coalescent approximate constant-rate birth-death population dynamics?Sampling through time and phylodynamic inference with coalescent and birth-death modelsThe fossilized birth-death process for coherent calibration of divergence-time estimatesOutbreakTools: a new platform for disease outbreak analysis using the R softwareUsing an epidemiological model for phylogenetic inference reveals density dependence in HIV transmissionInsights into the early epidemic spread of ebola in sierra leone provided by viral sequence data.Phylogenetic tree shapes resolve disease transmission patterns.Eight challenges in phylodynamic inference.How the dynamics and structure of sexual contact networks shape pathogen phylogenies.Inference of epidemiological dynamics based on simulated phylogenies using birth-death and coalescent models.Model inadequacy and mistaken inferences of trait-dependent speciation.Viral Genetic Linkage Analysis in the Presence of Missing Data.Phylogenetic Exploration of Nosocomial Transmission Chains of 2009 Influenza A/H1N1 among Children Admitted at Red Cross War Memorial Children's Hospital, Cape Town, South Africa in 2011Long-Range HIV Genotyping Using Viral RNA and Proviral DNA for Analysis of HIV Drug Resistance and HIV Clustering.Reconstructing contact network parameters from viral phylogenies.Reconciling phylodynamics with epidemiology: the case of dengue virus in southern Vietnam.The spread of hepatitis C virus genotype 1a in North America: a retrospective phylogenetic study.Toward an endgame: finding and engaging people unaware of their HIV-1 infection in treatment and prevention.Genomic analysis of emerging pathogens: methods, application and future trends.Effects of memory on the shapes of simple outbreak trees.Phylogenetic Tools for Generalized HIV-1 Epidemics: Findings from the PANGEA-HIV Methods Comparison.Impacts and shortcomings of genetic clustering methods for infectious disease outbreaks.Transmission networks and risk of HIV infection in KwaZulu-Natal, South Africa: a community-wide phylogenetic study.Importance of Viral Sequence Length and Number of Variable and Informative Sites in Analysis of HIV Clustering.Impact of sampling density on the extent of HIV clustering.Evolutionary epidemiology: preparing for an age of genomic plenty.Mathematical Models for the Epidemiology and Evolution of Mycobacterium tuberculosis.Impact of the tree prior on estimating clock rates during epidemic outbreaks.Inferring epidemiologic dynamics from viral evolution: 2014-2015 Eurasian/North American highly pathogenic avian influenza viruses exceed transmission threshold, R0 = 1, in wild birds and poultry in North America.outbreaker2: a modular platform for outbreak reconstructionDetection of HIV transmission clusters from phylogenetic trees using a multi-state birth-death model
P2860
Q27231613-8288F381-A621-4888-925C-594A263FEE44Q28596161-B561F2BA-121F-4C0F-9885-83B67A153455Q28606881-EB6DE0B2-1F4E-4BD4-B787-6456D838BD1CQ28607617-71B908E1-DEB3-4854-A552-1DF3C61EC001Q28647740-5C0F0E7C-633F-4B1D-A531-910AA059B368Q28652568-585877F5-5F39-4A71-8756-6AE53037BD3DQ28655088-948E4234-568F-462A-8B1E-7272398156F6Q28658171-AF7D61F0-4DF4-4FE7-A9A3-044648AE438CQ28660879-D8590D49-F02D-430D-8C60-3B6C04EAF836Q30887052-56270FE6-1B3B-40F6-A398-4C0B4BD04290Q33901081-4290C94A-484B-4E28-B03F-4AED8C6397F7Q34470326-1DE3DC88-4243-4FAC-91DB-A1EDCC6E40A2Q34789253-7503F99C-6F01-463D-AA3E-72802803433FQ35398422-C2001DC3-B489-4C85-83BD-0E0FF207DE4AQ35545040-B73899CD-171D-4220-8407-618396BA7414Q35753695-1B0C34C5-30F6-4958-95F6-CDCBC4CD4798Q35840881-888DC17C-3C8C-489D-A0FB-96DB4B2B38ABQ35868716-E5C827DE-2F8B-4B16-997B-D5DDB8BDCC5EQ37391336-E78A5CD2-A044-44D3-883B-25F2E3409070Q37532867-E7F48DC6-DC3D-4693-9E8F-A3F01CEA9212Q37594232-AC3A5D16-143C-4807-8D84-4D2A0545454CQ37610668-FFFC52E9-D99B-438A-9731-73B29FDB0FBBQ38270698-CBE79E0B-4C6E-4F7B-8BA2-25248F4480C5Q38542688-07B19F71-97B9-4412-A015-161C4CBD538AQ38774793-18653508-4BDF-492A-BA50-E39B37B81DD5Q39037138-9C4AA6D4-B03B-41EC-BFE4-22FDD7F4678AQ39133357-8ACE6F9B-C3F5-4A15-B819-5D70BB778067Q40501110-BCBBBDD9-B8D5-442F-922F-58157F4B660EQ40794836-88B00A0B-4E64-47CE-9604-AF52333D133AQ43132177-86E66750-8238-4BB8-9B57-4969AB5EFD2FQ47369329-827CF050-7685-48B1-809A-667642C854CDQ52334060-1D1F866E-BA29-4A1B-B142-E274E4163A4BQ52595156-69A55AAA-7CA9-43E1-8448-B74B5DDD8189Q57801302-1C30CF10-A99E-4D85-897B-418E2325ECC9Q58762370-980DD644-DD06-4972-B3DB-78BDDFE941DB
P2860
Uncovering epidemiological dynamics in heterogeneous host populations using phylogenetic methods
description
2013 nî lūn-bûn
@nan
2013 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի մարտին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
name
Uncovering epidemiological dyn ...... ons using phylogenetic methods
@ast
Uncovering epidemiological dyn ...... ons using phylogenetic methods
@en
Uncovering epidemiological dyn ...... ons using phylogenetic methods
@nl
type
label
Uncovering epidemiological dyn ...... ons using phylogenetic methods
@ast
Uncovering epidemiological dyn ...... ons using phylogenetic methods
@en
Uncovering epidemiological dyn ...... ons using phylogenetic methods
@nl
prefLabel
Uncovering epidemiological dyn ...... ons using phylogenetic methods
@ast
Uncovering epidemiological dyn ...... ons using phylogenetic methods
@en
Uncovering epidemiological dyn ...... ons using phylogenetic methods
@nl
P2860
P3181
P356
P1476
Uncovering epidemiological dyn ...... ons using phylogenetic methods
@en
P2860
P304
P3181
P356
10.1098/RSTB.2012.0198
P407
P577
2013-03-19T00:00:00Z