Parasitic castration by the digenian trematode Allopodocotyle sp. alters gene expression in the brain of the host mollusc Haliotis asinina

Tamika Rice; Elizabeth McGraw; Elizabeth K. O'Brien; Antonio Reverter; Daniel J. Jackson; Bernard M. Degnan

doi:10.1016/j.febslet.2006.05.068

Parasitic castration by the digenian trematode Allopodocotyle sp. alters gene expression in the brain of the host mollusc Haliotis asinina

Tamika Rice, Elizabeth McGraw, Elizabeth K. O'Brien, Antonio Reverter, Daniel J. Jackson, Bernard M. Degnan

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

Infection of molluscs by digenean trematode parasites typically results in the repression of reproduction - the so-called parasitic castration. This is known to occur by altering the expression of a range of host neuropeptide genes. Here we analyse the expression levels of 10 members of POU, Pax, Sox and Hox transcription factor gene families, along with genes encoding FMRFamide, prohormone convertase and β-tubulin, in the brain ganglia of actively reproducing (summer), non-reproducing (winter) and infected Haliotis asinina (a vetigastropod mollusc). A number of the regulatory genes are differentially expressed in parasitised H. asinina, but in only a few cases do expression patterns in infected animals match those occurring in animals where reproduction is normally repressed.

Original language	English (US)
Pages (from-to)	3769-3774
Number of pages	6
Journal	FEBS Letters
Volume	580
Issue number	15
DOIs	https://doi.org/10.1016/j.febslet.2006.05.068
State	Published - Jun 26 2006

All Science Journal Classification (ASJC) codes

Biophysics
Structural Biology
Biochemistry
Molecular Biology
Genetics
Cell Biology

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title = "Parasitic castration by the digenian trematode Allopodocotyle sp. alters gene expression in the brain of the host mollusc Haliotis asinina",

abstract = "Infection of molluscs by digenean trematode parasites typically results in the repression of reproduction - the so-called parasitic castration. This is known to occur by altering the expression of a range of host neuropeptide genes. Here we analyse the expression levels of 10 members of POU, Pax, Sox and Hox transcription factor gene families, along with genes encoding FMRFamide, prohormone convertase and β-tubulin, in the brain ganglia of actively reproducing (summer), non-reproducing (winter) and infected Haliotis asinina (a vetigastropod mollusc). A number of the regulatory genes are differentially expressed in parasitised H. asinina, but in only a few cases do expression patterns in infected animals match those occurring in animals where reproduction is normally repressed.",

author = "Tamika Rice and Elizabeth McGraw and O'Brien, {Elizabeth K.} and Antonio Reverter and Jackson, {Daniel J.} and Degnan, {Bernard M.}",

note = "Funding Information: This work was supported by an Australian Research Council grant to B.M.D.",

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doi = "10.1016/j.febslet.2006.05.068",

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AU - Rice, Tamika

AU - McGraw, Elizabeth

AU - O'Brien, Elizabeth K.

AU - Reverter, Antonio

AU - Jackson, Daniel J.

AU - Degnan, Bernard M.

N1 - Funding Information: This work was supported by an Australian Research Council grant to B.M.D.

PY - 2006/6/26

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AB - Infection of molluscs by digenean trematode parasites typically results in the repression of reproduction - the so-called parasitic castration. This is known to occur by altering the expression of a range of host neuropeptide genes. Here we analyse the expression levels of 10 members of POU, Pax, Sox and Hox transcription factor gene families, along with genes encoding FMRFamide, prohormone convertase and β-tubulin, in the brain ganglia of actively reproducing (summer), non-reproducing (winter) and infected Haliotis asinina (a vetigastropod mollusc). A number of the regulatory genes are differentially expressed in parasitised H. asinina, but in only a few cases do expression patterns in infected animals match those occurring in animals where reproduction is normally repressed.

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Parasitic castration by the digenian trematode Allopodocotyle sp. alters gene expression in the brain of the host mollusc Haliotis asinina

Abstract

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