Elucidation of ataxin-3 and ataxin-7 function by integrative bioinformatics

doi:10.1093/hmg/ddg297

Human Molecular Genetics Advance Access originally published online on August 27, 2003

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Human Molecular Genetics, 2003, Vol. 12, No. 21 2845-2852
DOI: 10.1093/hmg/ddg297
© 2003 Oxford University Press

Elucidation of ataxin-3 and ataxin-7 function by integrative bioinformatics

Hartmut Scheel, Stefan Tomiuk and Kay Hofmann^*

Bioinformatics Group, Memorec Biotec GmbH, Stöckheimer Weg 1, D-50829 Köln, Germany

Received July 17, 2003; Revised August 6, 2003; Accepted August 18, 2003

The spinocerebellar ataxias (SCAs) are a class of hereditaryneurodegenerative diseases, which are caused by the pathologicalexpansion of unstable CAG triplet repeats found in a numberof apparently unrelated genes. The proteins encoded by the SCAgenes typically translate this expanded (CAG)_n repeat into anexpanded poly(Q) stretch. Several pathological features arecommon to all SCAs, irrespective of the gene harbouring theexpansion. The specific contributions of the mutated genes arecurrently hard to assess, as the physiological role of mostof the so-called ataxins is not known. By combining the resultsof profile-based sequence analysis with genome-wide functionaldata available for model organisms, we have derived detailedpredictions of the physiological function of two SCA gene products.Ataxin-3, the protein mutated in Machado Joseph Disease (SCA3),belongs to a novel group of cysteine-proteases and is predictedto be active against ubiquitin chains or related substrates.The catalytic site of this enzyme class is similar to that foundin UBP and UCH type ubiquitin proteases. For ataxin-7, the geneproduct of the SCA7 gene, we have identified an orthology relationshipto the yeast open reading frame Ygl066c. Recently publishedevidence from genome-wide studies suggests that Ygl066c is acomponent of the SAGA histone acetyltransferase complex. Byanalogy, a similar role for the mammalian ataxin-7 can be expected.The functional predictions reported here are sufficiently preciseto allow a direct experimental verification. Moreover, bothfindings have implications for the general pathogenesis of spinocerebellarataxias by providing a direct connection of these diseases withubiquitin metabolism and histone acetylation.

^* To whom correspondence should be addressed. Email: kay.hofmann{at}memorec.com

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