scholarly article | Q13442814 |
P356 | DOI | 10.1016/J.MBS.2013.01.003 |
P932 | PMC publication ID | 4122664 |
P698 | PubMed publication ID | 23357287 |
P894 | zbMATH Open document ID | 1261.92034 |
P50 | author | Dominik Wodarz | Q56974284 |
Natalia Komarova | Q67223515 | ||
P2860 | cites work | Increased burst size in multiply infected cells can alter basic virus dynamics | Q21203747 |
Avoiding the void: cell-to-cell spread of human viruses | Q22251022 | ||
HIV-1 dynamics in vivo: virion clearance rate, infected cell life-span, and viral generation time | Q29547822 | ||
Rapid turnover of plasma virions and CD4 lymphocytes in HIV-1 infection | Q29547852 | ||
Predominant mode of human immunodeficiency virus transfer between T cells is mediated by sustained Env-dependent neutralization-resistant virological synapses | Q30480959 | ||
Quantitative 3D video microscopy of HIV transfer across T cell virological synapses | Q30490761 | ||
Multiploid inheritance of HIV-1 during cell-to-cell infection | Q30501773 | ||
Containment of simian immunodeficiency virus infection: cellular immune responses and protection from rechallenge following transient postinoculation antiretroviral treatment | Q33799700 | ||
HIV dynamics with multiple infections of target cells | Q33852032 | ||
Host factors influencing viral persistence. | Q34143952 | ||
Spread of HTLV-I between lymphocytes by virus-induced polarization of the cytoskeleton | Q34177545 | ||
Effect of synaptic transmission on viral fitness in HIV infection | Q34481956 | ||
Modelling viral and immune system dynamics | Q34572224 | ||
No coexistence for free: neutral null models for multistrain pathogens | Q34997091 | ||
Majority of CD4+ T cells from peripheral blood of HIV-1-infected individuals contain only one HIV DNA molecule | Q35091012 | ||
New kinetic models for the hepatitis C virus | Q36263215 | ||
HIV recombination: what is the impact on antiretroviral therapy? | Q36539852 | ||
Multiplicity of human immunodeficiency virus infections in lymphoid tissue | Q36684127 | ||
Cell-to-Cell Spread of Retroviruses | Q37945208 | ||
Effect of different modes of viral spread on the dynamics of multiply infected cells in human immunodeficiency virus infection | Q42588751 | ||
Inefficient human immunodeficiency virus replication in mobile lymphocytes | Q42957159 | ||
Recombination: Multiply infected spleen cells in HIV patients | Q43923409 | ||
Multiple HIV-1 infection of cells and the evolutionary dynamics of cytotoxic T lymphocyte escape mutants | Q44071416 | ||
Superinfection with a heterologous HIV strain per se does not lead to faster progression | Q44203926 | ||
Evolutionary dynamics of HTLV-I. | Q52115304 | ||
Modelling the dynamics of LCMV infection in mice: conventional and exhaustive CTL responses. | Q52240526 | ||
Recombination in HIV and the evolution of drug resistance: for better or for worse? | Q53905007 | ||
Recombination and drug resistance in HIV: Population dynamics and stochasticity | Q56930277 | ||
P433 | issue | 2 | |
P6104 | maintained by WikiProject | WikiProject Mathematics | Q8487137 |
P1104 | number of pages | 11 | |
P304 | page(s) | 161-171 | |
P577 | publication date | 2013-01-25 | |
P1433 | published in | Mathematical Biosciences | Q2199138 |
P1476 | title | Virus dynamics in the presence of synaptic transmission | |
P478 | volume | 242 |
Q52718267 | Accounting for Space—Quantification of Cell-To-Cell Transmission Kinetics Using Virus Dynamics Models. |
Q40964134 | Cell-to-cell infection by HIV contributes over half of virus infection |
Q36098346 | Commentary: With a little help from my enteric microbial friends |
Q27309008 | Contribution of HIV-1 genomes that do not integrate to the basic reproductive ratio of the virus |
Q90625335 | Effect of synaptic cell-to-cell transmission and recombination on the evolution of double mutants in HIV |
Q38612646 | Fighting Cancer with Mathematics and Viruses |
Q92519474 | Global Properties of Latent Virus Dynamics Models with Immune Impairment and Two Routes of Infection |
Q21092519 | Hybrid spreading mechanisms and T cell activation shape the dynamics of HIV-1 infection |
Q40509609 | Mathematical analysis of an HIV latent infection model including both virus-to-cell infection and cell-to-cell transmission |
Q38952060 | Modeling Viral Spread |
Q38733905 | Multiscale modeling of virus replication and spread |
Q57467563 | Synaptic transmission may provide an evolutionary benefit to HIV through modulation of latency |
Q47548926 | The role of spatial heterogeneity in the evolution of local and global infections of viruses. |
Search more.