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"Rayner, Catherine"
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Ernest, the moose who doesn't fit
A rather large moose who cannot fit on the page teams up with his little chipmunk friend to find a solution. Final pages form a gatefold.
Book
A survey of dairy cow farmers in the United Kingdom: knowledge, attitudes and practices surrounding antimicrobial use and resistance
Antimicrobial resistance (AMR) is among the most pressing challenges facing humanity. This survey of dairy cow farmers (n=372) was conducted to explore knowledge, attitudes and practices surrounding veterinary medicine use and to identify farmer-led solutions to reducing, replacing and refining antimicrobial use. Antimicrobials were the most commonly reported veterinary medicines used. Twenty-two per cent of the antibiotics used by dairy farmers contained a highest priority critically important active ingredient. Mastitis was rated as the most important health and welfare challenge and was the most common reason for medicine use. Frequency of veterinary contact was associated with a decrease in the use of antibiotic footbaths, more ‘responsible’ treatment choices and increased knowledge of AMR. Purchasing medicine from a vet practice rather than elsewhere was associated with an increased likelihood of disposing of waste milk responsibly. These findings highlight the important role of veterinarians in guiding responsible medicine use. Ninety per cent of participants stated that they were trying to reduce their antimicrobial use. Farmers suggested a wide array of alternative treatments and potential interventions for managing herd health. Findings from this project could be used to target education and training surrounding best practice, supporting the important role that farmers play in protecting public health.
Journal Article
Harris finds his feet
Harris, a very small hare with very big feet, has an elderly Grandad who teaches him the many uses of big, strong feet and other important life lessons.
Book
Abigail
Abigail the giraffe wants to count the spots on her animal friends, Ladybug, Zebra, and Cheetah, but when they move too fast for counting, Abigail comes up with a new plan.
Book
Assessing Mathematical Models of Influenza Infections Using Features of the Immune Response
The role of the host immune response in determining the severity and duration of an influenza infection is still unclear. In order to identify severity factors and more accurately predict the course of an influenza infection within a human host, an understanding of the impact of host factors on the infection process is required. Despite the lack of sufficiently diverse experimental data describing the time course of the various immune response components, published mathematical models were constructed from limited human or animal data using various strategies and simplifying assumptions. To assess the validity of these models, we assemble previously published experimental data of the dynamics and role of cytotoxic T lymphocytes, antibodies, and interferon and determined qualitative key features of their effect that should be captured by mathematical models. We test these existing models by confronting them with experimental data and find that no single model agrees completely with the variety of influenza viral kinetics responses observed experimentally when various immune response components are suppressed. Our analysis highlights the strong and weak points of each mathematical model and highlights areas where additional experimental data could elucidate specific mechanisms, constrain model design, and complete our understanding of the immune response to influenza.
Journal Article
RecQ helicases in the malaria parasite Plasmodium falciparum affect genome stability, gene expression patterns and DNA replication dynamics
The malaria parasite Plasmodium falciparum has evolved an unusual genome structure. The majority of the genome is relatively stable, with mutation rates similar to most eukaryotic species. However, some regions are very unstable with high recombination rates, driving the generation of new immune evasion-associated var genes. The molecular factors controlling the inconsistent stability of this genome are not known. Here we studied the roles of the two putative RecQ helicases in P. falciparum, PfBLM and PfWRN. When PfWRN was knocked down, recombination rates increased four-fold, generating chromosomal abnormalities, a high rate of chimeric var genes and many microindels, particularly in known 'fragile sites'. This is the first identification of a gene involved in suppressing recombination and maintaining genome stability in Plasmodium. By contrast, no change in mutation rate appeared when the second RecQ helicase, PfBLM, was mutated. At the transcriptional level, however, both helicases evidently modulate the transcription of large cohorts of genes, with several hundred genes-including a large proportion of vars-showing deregulated expression in each RecQ mutant. Aberrant processing of stalled replication forks is a possible mechanism underlying elevated mutation rates and this was assessed by measuring DNA replication dynamics in the RecQ mutant lines. Replication forks moved slowly and stalled at elevated rates in both mutants, confirming that RecQ helicases are required for efficient DNA replication. Overall, this work identifies the Plasmodium RecQ helicases as major players in DNA replication, antigenic diversification and genome stability in the most lethal human malaria parasite, with important implications for genome evolution in this pathogen.
Journal Article