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Publications

Appropriately aggregate holistic technologies via accurate expertise. Intrinsicly strategize worldwide initiatives and premium methodologies.

Ancient chicken remains reveal the origins of virulence in Marek's disease virus.

Fiddaman SR. et al, (2023), Science (New York, N.Y.), 382, 1276 - 1281

The risk of highly pathogenic avian influenza in the Southern Ocean: a practical guide for operators and scientists interacting with wildlife

Dewar M. et al, (2023), ANTARCTIC SCIENCE

Author Correction: Selectively targeting haemagglutinin antigen to chicken CD83 receptor induces faster and stronger immunity against avian influenza.

Shrestha A. et al, (2022), NPJ vaccines, 7

Impact of host age on viral and bacterial communities in a waterbird population

Hill SC. et al, (2022), The ISME Journal

High resolution parallel sequencing reveals multistrain Campylobacter in broiler chicken flocks testing ‘negative’ by conventional culture methods: implications for control of Campylobacter infection

Colles FM. et al, (2022), Poultry Science, 101, 102048 - 102048

Comparison of CpG- and UpA-mediated restriction of RNA virus replication in mammalian and avian cells and investigation of potential ZAP-mediated shaping of host transcriptome compositions.

Odon V. et al, (2022), RNA (New York, N.Y.), 28, 1089 - 1109

Genomic insights into the secondary aquatic transition of penguins.

Cole TL. et al, (2022), Nature communications, 13

The erythrocyte membrane properties of beta thalassaemia heterozygotes and their consequences for Plasmodium falciparum invasion.

Introini V. et al, (2022), Scientific reports, 12

Reconstructing the history of helminth prevalence in the UK

Ryan H. et al, (2022), PLOS Neglected Tropical Diseases, 16, e0010312 - e0010312

Fourth Report on Chicken Genes and Chromosomes 2022

Smith J. et al, (2022), Cytogenetic and Genome Research, 162, 405 - 528

The influences of microbial colonisation and germ-free status on the chicken TCRβ repertoire.

Dascalu S. et al, (2022), Frontiers in immunology, 13

Avian T cells: Antigen Recognition and Lineages

Smith AL. and Göbel TW., (2021), Avian Immunology, 121 - 134

Introduction to the avian innate immune system; properties, effects, and integration with other parts of the immune system

Göbel TW. and Smith AL., (2021), Avian Immunology, 163 - 166

Pattern recognition receptors

Smith AL. and Fiddaman SR., (2021), Avian Immunology, 231 - 248

The avian enteric immune system in health and disease

Smith AL. et al, (2021), Avian Immunology, 303 - 326

Correction to: Repertoire analysis of γδ T cells in the chicken enables functional annotation of the genomic region revealing highly variable pan-tissue TCR gamma V gene usage as well as identifying public and private repertoires.

Dixon R. et al, (2021), BMC Genomics, 22

Parallel sequencing reveals Campylobacter in commercial meat chickens less than 8 days old.

Colles FM. et al, (2021), Applied and environmental microbiology

Can good broiler flock welfare prevent colonization by Campylobacter?

Rawson T. et al, (2021), Poultry science, 100

Intestinal helminths as a biomolecular complex in archaeological research.

Flammer PG. and Smith AL., (2020), Philos Trans R Soc Lond B Biol Sci, 375

A review of a decade of lessons from one of the world’s largest MPAs: conservation gains and key challenges

Hays GC. et al, (2020), Marine Biology, 167

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