594 results found
    1. Neuroscience

    A mathematical model explains saturating axon guidance responses to molecular gradients

    Huyen Nguyen et al
    Mathematical modelling explains why molecular gradients sometimes cause axons to only turn weakly.
    Research Article
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    1. Epidemiology and Global Health

    Modelling the contribution of the hypnozoite reservoir to Plasmodium vivax transmission

    Michael T White et al
    Mathematical models of the build-up and depletion of the hypnozoite reservoir in the liver can inform the design of treatment strategies for preventing Plasmodium vivax relapse infections.
    Research Article Updated
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    1. Computational and Systems Biology
    2. Genes and Chromosomes

    Stochastic modelling, Bayesian inference, and new in vivo measurements elucidate the debated mtDNA bottleneck mechanism

    Iain G Johnston et al
    New modelling, statistics, and experiments show that cellular populations of mitochondrial DNA (mtDNA) evolve during development according to solvable stochastic dynamics involving binomial partitioning and random turnover, facilitating a predictive and quantitative theory of the mtDNA bottleneck.
    Research Article Updated
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    1. Computational and Systems Biology
    2. Epidemiology and Global Health

    Modelling primaquine-induced haemolysis in G6PD deficiency

    James Watson et al
    In silico modelling of all available data shows that a twenty-day ascending-dose primaquine regimen could be safe to administer to G6PD deficient patients for the radical cure of vivax malaria.
    Research Article Updated
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    1. Epidemiology and Global Health

    Mathematical modeling of the West Africa Ebola epidemic

    Jean-Paul Chretien et al
    A review of mathematical models applied to the West Africa Ebola epidemic suggests ways to improve the use of mathematical modeling in responding to public health emergencies.
    Research Article Updated
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  1. Research: Theory, models and biology

    Wenying Shou et al
    Theoretical ideas have a rich history in many areas of biology, and new theories and mathematical models have much to offer in the future.
    Editorial
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    1. Computational and Systems Biology
    2. Immunology

    T-cell Immunology: The maths of memory

    Jose Borghans, Ruy M Ribeiro
    Mathematical modeling reveals that long-term immunological memory is maintained in a manner that is even more dynamic than previously thought.
    Insight
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    1. Ecology
    2. Genomics and Evolutionary Biology

    The evolution of non-reproductive workers in insect colonies with haplodiploid genetics

    Jason W Olejarz et al
    A mathematical model predicts the precise conditions for natural selection to favor the evolution of non-reproductive workers in insect colonies with haplodiploid genetics.
    Research Article Updated
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    1. Genomics and Evolutionary Biology
    2. Microbiology and Infectious Disease

    Experimentally guided models reveal replication principles that shape the mutation distribution of RNA viruses

    Michael B Schulte et al
    A mathematical model that combines stochasticity and spatial structure describes the dynamics of the viral population during an infection cycle, and fitting the model to RNA and virus abundances over time shows that poliovirus follows a geometric replication mode.
    Research Article
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    1. Immunology
    2. Microbiology and Infectious Disease

    Rapid localized spread and immunologic containment define Herpes simplex virus-2 reactivation in the human genital tract

    Joshua T Schiffer et al
    A combination of detailed sampling and mathematical modeling suggests that the response of immune cells to reactivation of herpes simplex virus 2 is extremely rapid and effective within microscopic areas of genital skin.
    Research Article
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