Difference between revisions of "Pseudophosphatases (obsolete)"
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==== Tensin subfamily ==== | ==== Tensin subfamily ==== | ||
| − | The [[Phosphatase_Subfamily_Tensin|tensin subfamily]] has four members, TNS1-4. TNS1 and TNS2 are predicted to be catalytically inactive, given the arginine residue is replaced by asparagine and lysine at CX<sub>5</sub>R motif, respectively. However, TNS2 has been reported to dephosphorylate IRS-1 <cite> | + | The [[Phosphatase_Subfamily_Tensin|tensin subfamily]] has four members, TNS1-4. TNS1 and TNS2 are predicted to be catalytically inactive, given the arginine residue is replaced by asparagine and lysine at CX<sub>5</sub>R motif, respectively. However, TNS2 has been reported to dephosphorylate IRS-1 <cite> Koh13 </cite>. |
=== Myotubularins === | === Myotubularins === | ||
Revision as of 16:08, 2 October 2015
Contents
[hide]Human pseudophosphatases
PTPs
Second phosphatase domains of receptor PTPs
Most receptor PTPs have two tandem phosphatase domains. The 2nd phosphatase domain has no or negligible activity. The 2nd domain can interact with 1st domain in both intra- and intermolecular manners, therefore regulating receptor PTP stability, specificity, and dimerization [1, 2]. Because the first phosphatase domains are active, these receptor PTPs are active at protein level. These phosphatases include:
- Subfamily PTPRA: PTPRA and PTPRE
- Subfamily PTPRC: PTPRC
- Subfamily PTPRD: PTPRD, PTPRF and PTPRS
- Subfamily PTPRG: PTPRG and PTPRZ1
- Subfamily PTPRK: PTPRK, PTPRM, PTPRT and PTPRU
PTPRN subfamily
PTPN14 subfamily
PTPN23 subfamily
The PTPN23 subfamily has a single member in human, PTPN23 (HD-PTP). Its catalytic activity is plausible. It has been reported to be catalytically inactive, - no phosphatase activity toward tyrosine or lipid. It was proposed that serine at position 1452 within Cx5R catalytic motif caused the inactivity. Replacing serine with alanine, which is found in catalytically active PTPs, can restore the phosphatase activity [3]. However, another study found SRC, E-cadherin, and beta-catenin are direct substrates of PTPN23 [4]. But, yet another study showed that PTPN23 did not modulate the levels of Src phosphorylation both in vitro and in vivo [5].
DSPs
STYX subfamily
The STYX subfamily has a single member in human, STYX. It binds to phosphorylated tyrosine to module signaling [6]. STYX localizes to the nucleus, competes with DUSP4 for binding to ERK, and acts as a nuclear anchor that regulates ERK nuclear export [7].
STYXL1 subfamily
The STYXL1 subfamily has a single member in human, STYXL1 (MK-STYX). STYXL1 binds to phosphatase PTPMT1 and modulates its activity [8, 9]. However, it is unclear whether the interaction between STYXL1 and PTPMT1 is mediated by the inactive phosphatase domain of STYXL1.
One of the five of DSP3 subfamily: DUSP27
The function of DUSP27 is unknown, so is its catalytically inactive phosphatase domain.
PTEN-like phosphatases
Auxilin subfamily
There are two members of auxilin subfamily in human, GAK and DNAJC6. Both GAK and DNAJC6 phosphatase domains have been shown to bind to phospholipids [10, 11]. The phosphatase domains of both are predicted to be inactive due to arginine in catalytic motif Cx5R is replaced by alanine.
Tensin subfamily
The tensin subfamily has four members, TNS1-4. TNS1 and TNS2 are predicted to be catalytically inactive, given the arginine residue is replaced by asparagine and lysine at CX5R motif, respectively. However, TNS2 has been reported to dephosphorylate IRS-1 [12].
Myotubularins
MTMR5 subfamily
The MTMR5 subfamily has two genes in human: MTMR5 (SBF1) and MTMR13 (SBF2). MTMR5 interacts with MTMR2 (see MTMR1 subfamily) via its coiled-coil domain and mutations in the coiled-coil domain of either MTMR2 or MTMR5 abrogate this interaction. Through this interaction, MTMR5 increases the enzymatic activity of MTMR2 and dictates its subcellular localization [13]. This is a good example of inactive phosphatase functions as regulator of active phosphatase. The function of MTMR13 is unclear.
MTMR9 subfamily
The MTMR9 subfamily has a single gene in human. MTMR9 binds to phosphatases of MTMR6 subfamily: MTMR6 [14], MTMR7 [15], MTMR8 [16]. The interactions increase the enzymatic activity of these phosphatases. The interaction between MTMR9 and members of MTMR6 subfamily is also observed in C. elegans [17].
MTMR10 subfamily
The MTMR10 subfamily has three genes in human: MTMR10, MTMR11 and MTMR12. The functions of MTMR10 and MTMR11 are unclear. MTMR12 binds to MTM1 [18].
Other families
TIM50 subfamily of HAD family
PPIP5K subfamily of HP2 family
TAB1 subfamily of PPM family
References
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- Error fetching PMID 12668758:
- Error fetching PMID 19038970:
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- Error fetching PMID 22647598:
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