Inferring epidemic contact structure from phylogenetic trees.
about
Viral phylodynamicsHIV-1 transmission during early infection in men who have sex with men: a phylodynamic analysisPhylodynamic analysis of HIV sub-epidemics in Mochudi, BotswanaUsing an epidemiological model for phylogenetic inference reveals density dependence in HIV transmissionUncovering epidemiological dynamics in heterogeneous host populations using phylogenetic methodsDetectable signals of episodic risk effects on acute HIV transmission: strategies for analyzing transmission systems using genetic data.Effects of contact network structure on epidemic transmission trees: implications for data required to estimate network structure.Network epidemiology and plant trade networksPhylogenetic tree shapes resolve disease transmission patterns.Molecular tools for studying HIV transmission in sexual networks.Eight challenges in phylodynamic inference.Applying evolutionary concepts to wildlife disease ecology and management.Integrating phylodynamics and epidemiology to estimate transmission diversity in viral epidemics.How the dynamics and structure of sexual contact networks shape pathogen phylogenies.Phylogenetic studies of transmission dynamics in generalized HIV epidemics: an essential tool where the burden is greatest?Tactics and strategies for managing Ebola outbreaks and the salience of immunizationThe impact of clinical, demographic and risk factors on rates of HIV transmission: a population-based phylogenetic analysis in British Columbia, Canada.Inferring disease transmission networks at a metapopulation level.'SEEDY' (Simulation of Evolutionary and Epidemiological Dynamics): An R Package to Follow Accumulation of Within-Host Mutation in Pathogens.Measuring Asymmetry in Time-Stamped Phylogenies.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.Assessment of Overlap of Phylogenetic Transmission Clusters and Communities in Simple Sexual Contact Networks: Applications to HIV-1.Phylodynamic Inference with Kernel ABC and Its Application to HIV Epidemiology.Agent-based and phylogenetic analyses reveal how HIV-1 moves between risk groups: injecting drug users sustain the heterosexual epidemic in Latvia.Inference of Transmission Network Structure from HIV Phylogenetic Trees.Inferring epidemiological parameters from phylogenies using regression-ABC: A comparative study.Phylodynamics on local sexual contact networks.Modelling tree shape and structure in viral phylodynamics.Coalescent inference for infectious disease: meta-analysis of hepatitis C.Reconstructing contact network parameters from viral phylogenies.Spatial and temporal dynamics of superspreading events in the 2014-2015 West Africa Ebola epidemic.Effects of memory on the shapes of simple outbreak trees.A Metric on Phylogenetic Tree Shapes.A molecular transmission network of recent hepatitis C infection in people with and without HIV: Implications for targeted treatment strategies.Social meets molecular: Combining phylogenetic and latent class analyses to understand HIV-1 transmission in Switzerland.Understanding drivers of phylogenetic clustering in molecular epidemiological studies of HIV.Two-phase importance sampling for inference about transmission trees.Detection of HIV transmission clusters from phylogenetic trees using a multi-state birth-death model
P2860
Q21045423-10A48CB0-EC71-4EF2-9E24-AB020ECDB9D9Q28536682-F2A07733-43C3-4B66-BA66-5A748441B5E0Q28606881-45F4EDF8-BA54-4B3A-8509-6B751DDFEBE9Q28660879-E8AAB12B-5F5B-4E00-AABD-F95CBDB6DFB9Q28681608-449EC394-AD91-4ED2-8370-DFE677CAC6B9Q30593892-C6684CF6-7BA6-4CCD-BAF2-F08ECDCD2754Q31161547-89BF9BEE-5DC9-4977-A800-79A8F08847C8Q33685388-B4045B8D-7E72-4297-BE39-F8CAFB87F10EQ33901081-A160D44E-CA42-4E60-B13C-3C18810ABFF8Q33945571-2224200D-7C86-461E-AAE4-3B30B2C48A93Q34470326-9B0343B2-8D36-4F34-8858-80FCA4FF9C55Q34490112-0EA3F0B6-C600-4001-9660-6DCA9190901EQ34574797-50CDB398-2813-47DF-8059-50DF72F2FE10Q34789253-5EC7FDA8-BD3D-4013-BAED-7C6BA05F1798Q35006672-A57AFB34-A368-4136-831B-7C30F8E07B4DQ35113745-A4E100AA-6FDD-47BB-BA0F-A8471230AC6CQ35152768-95CD26B0-6820-45A6-879E-655B8E4C52FBQ35222449-101C36E2-A43B-4EB3-A1E9-DDBE4757DB44Q35663682-5819391B-FD00-4F26-94BB-A2C897AACAFAQ35683361-09344A8B-34AC-4A64-9C84-0B5B99B48C7AQ35840881-FE5FDB5D-BC07-4077-BF02-4E151C2282F6Q35868716-B487D0C4-B2B7-4A5F-B040-789C6B5F4E25Q35919781-8910B5FA-EC57-453E-B2F3-AD76B61D7117Q35968853-A47AA13F-AA07-4C43-BB48-CC7F8BBE78CEQ36119466-B7F834D8-FF52-413D-91A0-04E7D50510F0Q36248721-849C6FF8-5127-4167-A1D7-7F6007FB7B73Q36298229-373BF412-4B78-45EF-8EF5-5A678E59BAA2Q36325542-CDCBEC50-49FB-4924-979D-2FA4FD937A28Q36918045-A864DE2E-2E09-48C1-9F88-2FB75FCCE2B5Q36918050-3FDEDE9D-055A-4E05-A53E-49E7EE18365FQ37391336-7EF27239-5FEC-4E9C-8DD9-F52C2688AC36Q37682354-845A79CD-2C29-417A-B01D-A16F3FD72BFEQ38542688-07FA95F3-1E5D-4CB1-804F-5511950AC872Q38950550-41816636-112D-45E8-BD3A-96F3A66E6B0EQ39157096-2E436791-D47C-436F-B45F-F6CDA7816F0AQ42215530-B2898EA4-A465-4304-BA03-B7753D69D7CDQ43162251-E535118D-0B00-4430-AC61-49823B39EDE3Q51033402-1FB64969-CE14-436F-9ADA-44E54F96871BQ58762370-F2F7FB2B-45F9-4F4B-9DA8-0F313A454245
P2860
Inferring epidemic contact structure from phylogenetic trees.
description
2012 nî lūn-bûn
@nan
2012 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի մարտին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年学术文章
@wuu
2012年学术文章
@zh-cn
2012年学术文章
@zh-hans
2012年学术文章
@zh-my
2012年学术文章
@zh-sg
2012年學術文章
@yue
name
Inferring epidemic contact structure from phylogenetic trees.
@ast
Inferring epidemic contact structure from phylogenetic trees.
@en
Inferring epidemic contact structure from phylogenetic trees.
@nl
type
label
Inferring epidemic contact structure from phylogenetic trees.
@ast
Inferring epidemic contact structure from phylogenetic trees.
@en
Inferring epidemic contact structure from phylogenetic trees.
@nl
prefLabel
Inferring epidemic contact structure from phylogenetic trees.
@ast
Inferring epidemic contact structure from phylogenetic trees.
@en
Inferring epidemic contact structure from phylogenetic trees.
@nl
P2860
P50
P1476
Inferring epidemic contact structure from phylogenetic trees.
@en
P2093
Cristina Cellerai
P2860
P304
P356
10.1371/JOURNAL.PCBI.1002413
P50
P577
2012-03-08T00:00:00Z