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metallothionein
Metallothionein (MT) is a family of cysteine-rich, low molecular weight (MW ranging from 500 to 14000 Da) proteins. They are localized to the membrane of the Golgi apparatus. MTs have the capacity to bind both physiological (such as zinc, copper, selenium) and xenobiotic (such as cadmium, mercury, silver, arsenic, lead) heavy metals through the thiol group of its cysteine residues, which represent nearly 30% of its constituent amino acid residues.
Key facts
- Protein family.Symbol
- Bacterial metallothionein
- Protein family.Name
- Cyanobacterial SmtA
- Protein family.image
- Metallothionein 1jjd.png
- Protein family.caption
- Cyanobacterial SmtA metallothionein bound to zinc ions. Cysteines in yellow, zinc in purple. ()
- Protein family.Pfam
- PF02069
- Protein family.InterPro
- IPR000518
- Protein family.Pfam_clan
- CL0461
via Wikipedia infobox
Research
14,676 papers- Elevated metallothionein expression in long-lived species.Aging · 2022
- Metallothionein isoforms as double agents - Their roles in carcinogenesis, cancer progression and chemoresistance.Drug resistance updates : reviews and commentaries in antimicrobial and anticancer chemotherapy · 2020
Article
14 sectionsContents
- Structure and classification
- Function
- Metal binding
- Control of oxidative stress
- Expression and regulation
- Metallothionein and disease
- Cancer
- Autism
- Cardiovascular disease
- History of research
- See also
- References
- Further reading
- External links
Metallothionein (MT) is a family of cysteine-rich, low molecular weight (MW ranging from 500 to 14000 Da) proteins. They are localized to the membrane of the Golgi apparatus. MTs have the capacity to bind both physiological (such as zinc, copper, selenium) and xenobiotic (such as cadmium, mercury, silver, arsenic, lead) heavy metals through the thiol group of its cysteine residues, which represent nearly 30% of its constituent amino acid residues.
MT was discovered in 1957 by Vallee and Margoshe from purification of a cadmium-binding protein from horse (equine) renal cortex. MT plays a role in the protection against metal toxicity and oxidative stress, and is involved in zinc and copper regulation. There are four main isoforms expressed in humans (family 1, see chart below): MT1 (subtypes A, B, E, F, G, H, L, M, X), MT2, MT3, and MT4. In the human body, large quantities are synthesised primarily in the liver and kidneys. Their production is dependent on availability of the dietary minerals such as zinc, copper, and selenium, as well as the amino acids histidine and cysteine.