A.J. De Vos scite author profile

Tick fever or cattle fever (babesiosis) is economically the most important arthropod-borne disease of cattle worldwide with vast areas of Australia, Africa, South and Central America and the United States continuously under threat. Tick fever was the first disease for which transmission by an arthropod to a mammal was implicated at the turn of the twentieth century and is the first disease to be eradicated from a continent (North America). This review describes the biology of Babesia spp. in the host and the tick, the scale of the problem to the cattle industry, the various components of control programmes, epidemiology, pathogenesis, immunity, vaccination and future research. The emphasis is on Babesia bovis and Babesia bigemina.

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Current state and future trends in the diagnosis of babesiosis

Böse¹,

Jorgensen²,

Dalgliesh

et al. 1995

Veterinary Parasitology

236

146

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Emergence of new types of Theileria orientalis in Australian cattle and possible cause of theileriosis outbreaks

Kamau

Vos

Playford³

et al. 2011

Parasites Vectors

156

146

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Theileria parasites cause a benign infection of cattle in parts of Australia where they are endemic, but have, in recent years, been suspected of being responsible for a number of outbreaks of disease in cattle near the coast of New South Wales. The objective of this study was to identify and characterize the species of Theileria in cattle on six farms in New South Wales where disease outbreaks have occurred, and compare with Theileria from three disease-free farms in Queensland that is endemic for Theileria. Special reference was made to sub-typing of T. orientalis by type-specific PCR and sequencing of the small subunit (SSU) rRNA gene, and sequence analysis of the gene encoding a polymorphic merozoite/piroplasm surface protein (MPSP) that may be under immune selection. Nucleotide sequencing of SSU rRNA and MPSP genes revealed the presence of four Theileria genotypes: T. orientalis (buffeli), T. orientalis (ikeda), T. orientalis (chitose) and T. orientalis type 4 (MPSP) or type C (SSU rRNA). The majority of animals showed mixed infections while a few showed single infection. When MPSP nucleotide sequences were translated into amino acids, base transition did not change amino acid composition of the protein product, suggesting possible silent polymorphism. The occurrence of ikeda and type 4 (type C) previously not reported to occur and silent mutation is thought to have enhanced parasite evasion of the host immune response causing the outbreak.

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Attenuated vaccines for tropical theileriosis, babesiosis and heartwater: the continuing necessity

Shkap¹,

Vos²,

Zweygarth³

et al. 2007

Trends in Parasitology

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Effect of breed of cattle on innate resistance to infection with <i>Babesia bovis, B bigemina and Anaplasma marginale

Bock¹,

Vos²,

Kingston³

et al. 1997

Aust Veterinary J

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A.J. De Vos

Babesiosis of cattle

Current state and future trends in the diagnosis of babesiosis

Emergence of new types of Theileria orientalis in Australian cattle and possible cause of theileriosis outbreaks

Attenuated vaccines for tropical theileriosis, babesiosis and heartwater: the continuing necessity

Effect of breed of cattle on innate resistance to infection with <i>Babesia bovis, B bigemina and Anaplasma marginale

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