Difference between revisions of "Phosphatase Subfamily AP"
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=== Evolution === | === Evolution === | ||
− | Alkaline phosphatases are found in metazoa, fungi, some protists, and bacteria, but are absent from most plants. They belong to the alkaline phosphatase-like fold ([http://scop.mrc-lmb.cam.ac.uk/scop/data/scop.b.d.bah.A.html SCOP]), which contains other enzymes, such as phosphoesterases and sulfatases. | + | Alkaline phosphatases are found in metazoa, fungi, some protists, and bacteria, but are absent from most plants. They belong to the alkaline phosphatase-like fold ([http://scop.mrc-lmb.cam.ac.uk/scop/data/scop.b.d.bah.A.html SCOP]), which contains other enzymes, such as phosphoesterases and sulfatases. Human has four APs. Three of them (ALPP, ALPP2, ALPI) locates in a quasi-tandem way at 1q36. |
=== Functions === | === Functions === |
Revision as of 19:23, 3 June 2015
Phosphatase Classification: Fold AP: Superfamily AP: Family AP: Subfamily AP(Alkaline phosphatase)
Alkaline phosphatase is a conserved phosphatase that has a broad of substrates, including proteins. It is used in clinical lab test, diary industry and biomedical research.
Evolution
Alkaline phosphatases are found in metazoa, fungi, some protists, and bacteria, but are absent from most plants. They belong to the alkaline phosphatase-like fold (SCOP), which contains other enzymes, such as phosphoesterases and sulfatases. Human has four APs. Three of them (ALPP, ALPP2, ALPI) locates in a quasi-tandem way at 1q36.
Functions
Alkaline phosphatases are a superfamily (Pfam) with a wide variety of substrates, possibly including phosphoproteins. There are four human alkaline phosphatases, named by their tissue expression: ALPI (alkaline phosphatase, intestinal), ALPP (alkaline phosphatase, placental), ALPPL2 (alkaline phosphatase, placental-like 2), and ALPL (alkaline phosphatase, liver/bone/kidneytissue). Early reports found that ALPL and ALPI can dephosphorylate Histone H2A [1, 2] and that PLAP is a protein tyrosine phosphatase [3], but their physiological relevance as protein phosphatases is still unclear.
References
- Swarup G, Cohen S, and Garbers DL. Selective dephosphorylation of proteins containing phosphotyrosine by alkaline phosphatases. J Biol Chem. 1981 Aug 10;256(15):8197-201.
- Chan JR and Stinson RA. Dephosphorylation of phosphoproteins of human liver plasma membranes by endogenous and purified liver alkaline phosphatases. J Biol Chem. 1986 Jun 15;261(17):7635-9.
- Telfer JF and Green CD. Placental alkaline phosphatase activity is inversely related to cell growth rate in HeLaS3 cervical cancer cells. FEBS Lett. 1993 Aug 30;329(3):238-44. DOI:10.1016/0014-5793(93)80229-n |