EC number 2.5.1.2 IntEnz IntEnz view ExPASy NiceZyme view | CAS number 9030-35-7 BRENDA BRENDA entry KEGG KEGG entry | |
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Thiaminase (EC 2.5.1.2) is an enzyme that metabolizes or breaks down thiamine into two molecular parts.
The old name was "Aneurinase".
There are two types:
Effects
Its physiological role for fish, bacterial cell or insect is not known. However, in ferns it is thought to offer protection from insects while studies have shown that thiamine hydrolase (thiaminase type 2) which was originally thought to be involved solely in the degradation of thiamine has actually been identified as having a role in thiamine degradation with the salvage of the pyramidine moiety where thiamin hydrolysis product N-formyl-4-amino-5-aminomethyl-2-methylpyrimidine is transported into the cell and deformylated by the ylmB-encoded amidohydrolase and hydrolyzed to 5-aminoimadazole ribotide
It was first described as the cause of highly mortal ataxic neuropathy in fur producing foxes eating raw entrails of river fish like carp in 1941.
It is also known as the etiology of cerebrocortical necrosis of cattle and polioencephalomalasia of sheep eating thiaminase containing plants.
It was once causing economical losses in raising fisheries, e.g. in yellowtail fed raw anchovy as a sole feed for a certain period, and also in sea bream and rainbow trout. The same problem is being studied in a natural food chain system.
The larvae of a wild silk worm Anaphe venata are being consumed in a rain forest district of Nigeria as a supplemental protein nutrition, and the heat resistant thiaminase in it is causing an acute seasonal cerebellar ataxia.
In 1860–61, Burke and Wills were the first Europeans to cross Australia south to north; on their return they subsisted primarily on raw nardoo-fern. It is possible that this led to their death due to the extremely high levels of thiaminase contained in Nardoo. The Aborigines prepared Nardoo by soaking the sporocarps in water for at least a day to avoid the effects of thiamine deficiency that would result from ingesting the leaves raw. In the explorers' journals they noted many symptoms of thiamine deficiency, so it is thought that they did not soak the nardoo long enough. Eventually thiamine deficiency could have led to their demise. It is noteworthy to mention that there are several other hypotheses regarding what may have killed Burke and Willis and it is widely disagreed upon by historians and scientists alike.