Published in Immunogenetics on July 10, 2017
Foreword: Immunogenetics special issue 2017. Immunogenetics (2017) 0.75
Toll-like receptor signalling. Nat Rev Immunol (2004) 34.74
Innate immune recognition. Annu Rev Immunol (2001) 26.65
The innate immune response to bacterial flagellin is mediated by Toll-like receptor 5. Nature (2001) 14.24
Chytridiomycosis causes amphibian mortality associated with population declines in the rain forests of Australia and Central America. Proc Natl Acad Sci U S A (1998) 11.62
Three-dimensional structure of the human class II histocompatibility antigen HLA-DR1. Nature (1993) 8.75
Crystal structure of the human class II MHC protein HLA-DR1 complexed with an influenza virus peptide. Nature (1994) 7.13
Colloquium paper: are we in the midst of the sixth mass extinction? A view from the world of amphibians. Proc Natl Acad Sci U S A (2008) 5.79
Declining amphibian populations. Science (1991) 5.68
Innate immune sensing and its roots: the story of endotoxin. Nat Rev Immunol (2003) 5.46
Pathogenesis of chytridiomycosis, a cause of catastrophic amphibian declines. Science (2009) 4.45
The evolutionary ecology of the major histocompatibility complex. Heredity (Edinb) (2006) 3.33
Multilocus sequence typing suggests the chytrid pathogen of amphibians is a recently emerged clone. Mol Ecol (2003) 3.03
Mechanisms of MHC class I-restricted antigen processing and cross-presentation. Immunol Rev (2005) 2.96
Wildlife disease. Recent introduction of a chytrid fungus endangers Western Palearctic salamanders. Science (2014) 2.82
Multiple emergences of genetically diverse amphibian-infecting chytrids include a globalized hypervirulent recombinant lineage. Proc Natl Acad Sci U S A (2011) 2.78
Cutaneous chytridiomycosis in poison dart frogs (Dendrobates spp.) and White's tree frogs (Litoria caerulea). J Vet Diagn Invest (1999) 2.61
Toll-like receptor polymorphisms and susceptibility to human disease. Clin Sci (Lond) (2008) 1.94
Amphibian chytridiomycosis in Japan: distribution, haplotypes and possible route of entry into Japan. Mol Ecol (2009) 1.93
The invasive chytrid fungus of amphibians paralyzes lymphocyte responses. Science (2013) 1.88
MHC genotypes associate with resistance to a frog-killing fungus. Proc Natl Acad Sci U S A (2011) 1.87
Multiple parasites are driving major histocompatibility complex polymorphism in the wild. J Evol Biol (2003) 1.86
Batrachochytrium salamandrivorans sp. nov. causes lethal chytridiomycosis in amphibians. Proc Natl Acad Sci U S A (2013) 1.79
Only skin deep: shared genetic response to the deadly chytrid fungus in susceptible frog species. Mol Ecol (2012) 1.73
Comparative and developmental study of the immune system in Xenopus. Dev Dyn (2009) 1.68
Long-term endemism of two highly divergent lineages of the amphibian-killing fungus in the Atlantic Forest of Brazil. Mol Ecol (2014) 1.61
Amphibian immune defenses against chytridiomycosis: impacts of changing environments. Integr Comp Biol (2011) 1.61
The optimal number of major histocompatibility complex molecules in an individual. Proc Natl Acad Sci U S A (1992) 1.56
Immune defenses against Batrachochytrium dendrobatidis, a fungus linked to global amphibian declines, in the South African clawed frog, Xenopus laevis. Infect Immun (2010) 1.49
Genome-wide transcriptional response of Silurana (Xenopus) tropicalis to infection with the deadly chytrid fungus. PLoS One (2009) 1.47
Metamorphosis and the amphibian immune system. Immunol Rev (1998) 1.35
Amphibians acquire resistance to live and dead fungus overcoming fungal immunosuppression. Nature (2014) 1.28
The role of amphibian antimicrobial peptides in protection of amphibians from pathogens linked to global amphibian declines. Biochim Biophys Acta (2009) 1.25
Antimicrobial peptide defenses against chytridiomycosis, an emerging infectious disease of amphibian populations. Dev Comp Immunol (2005) 1.22
Evidence for directional selection at a novel major histocompatibility class I marker in wild common frogs (Rana temporaria) exposed to a viral pathogen (Ranavirus). PLoS One (2009) 1.19
Immunization is ineffective at preventing infection and mortality due to the amphibian chytrid fungus Batrachochytrium dendrobatidis. J Wildl Dis (2010) 1.10
Limited MHC polymorphism in the southern elephant seal: implications for MHC evolution and marine mammal population biology. Proc Biol Sci (1992) 1.08
Causes of mortality of the Wyoming toad. J Wildl Dis (1999) 1.08
Fighting a losing battle: vigorous immune response countered by pathogen suppression of host defenses in the chytridiomycosis-susceptible frog Atelopus zeteki. G3 (Bethesda) (2014) 1.07
Genetic evidence for a high diversity and wide distribution of endemic strains of the pathogenic chytrid fungus Batrachochytrium dendrobatidis in wild Asian amphibians. Mol Ecol (2013) 1.07
Immune defenses of Xenopus laevis against Batrachochytrium dendrobatidis. Front Biosci (Schol Ed) (2009) 1.03
More than skin deep: functional genomic basis for resistance to amphibian chytridiomycosis. Genome Biol Evol (2014) 1.00
Susceptibility of amphibians to chytridiomycosis is associated with MHC class II conformation. Proc Biol Sci (2015) 1.00
Amphibian decline and extinction: what we know and what we need to learn. Dis Aquat Organ (2010) 0.99
Synergistic inhibition of the lethal fungal pathogen Batrachochytrium dendrobatidis: the combined effect of symbiotic bacterial metabolites and antimicrobial peptides of the frog Rana muscosa. J Chem Ecol (2012) 0.97
Major histocompatibility complex based resistance to a common bacterial pathogen of amphibians. PLoS One (2008) 0.97
Prior infection does not improve survival against the amphibian disease Chytridiomycosis. PLoS One (2013) 0.94
Genetic erosion in wild populations makes resistance to a pathogen more costly. Evolution (2012) 0.93
The structure of HLA-DR52c: comparison to other HLA-DRB3 alleles. Proc Natl Acad Sci U S A (2008) 0.91
Adaptive tolerance to a pathogenic fungus drives major histocompatibility complex evolution in natural amphibian populations. Proc Biol Sci (2016) 0.88
Germ tube mediated invasion of Batrachochytrium dendrobatidis in amphibian skin is host dependent. PLoS One (2012) 0.87
Early 1900 s detection of Batrachochytrium dendrobatidis in Korean amphibians. PLoS One (2015) 0.84
Large-scale recovery of an endangered amphibian despite ongoing exposure to multiple stressors. Proc Natl Acad Sci U S A (2016) 0.82
Enhanced call effort in Japanese tree frogs infected by amphibian chytrid fungus. Biol Lett (2016) 0.80
Extensive diversification of MHC in Chinese giant salamanders Andrias davidianus (Anda-MHC) reveals novel splice variants. Dev Comp Immunol (2013) 0.80
CRN13 candidate effectors from plant and animal eukaryotic pathogens are DNA-binding proteins which trigger host DNA damage response. New Phytol (2015) 0.80
A de novo Assembly of the Common Frog (Rana temporaria) Transcriptome and Comparison of Transcription Following Exposure to Ranavirus and Batrachochytrium dendrobatidis. PLoS One (2015) 0.78
Comparative study of host response to chytridiomycosis in a susceptible and a resistant toad species. Mol Ecol (2016) 0.77
Major histocompatibility complex selection dynamics in pathogen-infected túngara frog (Physalaemus pustulosus) populations. Biol Lett (2016) 0.77
Life history linked to immune investment in developing amphibians. Conserv Physiol (2016) 0.77
Defects in host immune function in tree frogs with chronic chytridiomycosis. PLoS One (2014) 0.77
Positive selection drives the evolution of a major histocompatibility complex gene in an endangered Mexican salamander species complex. Immunogenetics (2015) 0.76
The Emerging Amphibian Fungal Disease, Chytridiomycosis: A Key Example of the Global Phenomenon of Wildlife Emerging Infectious Diseases. Microbiol Spectr (2016) 0.76
Characterization of MHC class IA in the endangered southern corroboree frog. Immunogenetics (2016) 0.76
Amphibian immunity-stress, disease, and climate change. Dev Comp Immunol (2016) 0.76
Characterisation of major histocompatibility complex class I genes in Japanese Ranidae frogs. Immunogenetics (2016) 0.75
Historical amphibian declines and extinctions in Brazil linked to chytridiomycosis. Proc Biol Sci (2017) 0.75