241 human active and 13 inactive phosphatases in total;
194 phosphatases have substrate data;
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336 protein substrates;
83 non-protein substrates;
1215 dephosphorylation interactions;
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299 KEGG pathways;
876 Reactome pathways;
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last scientific update: 11 Mar, 2019
last maintenance update: 01 Sep, 2023
Nucleus Chromosome, centromere Cytoplasm, cytoskeleton, spindleMidbody Chromosome, centromere,kinetochore Note=Colocalized atsynaptonemal complex central element from zygotene up to latepachytene when it begins to relocalize to heterochromaticchromocenters Colocalizes with AURKB at a connecting strandtraversing the centromere region and joining sister kinetochores,in metaphase II centromeres This strand disappears at themetaphase II/anaphase II transition and relocalizes to the spindlemidzone (By similarity) Colocalizes with AURKB at mitoticchromosomes (PubMed:11453556) Localizes to inner kinetochore(PubMed:16760428) Localizes on chromosome arms and innercentromeres from prophase through metaphase and then transferringto the spindle midzone and midbody from anaphase throughcytokinesis (PubMed:15316025) Cocalizes to the equatorial cellcortex at anaphase (PubMed:11453556)
Function (UniProt annotation)
Component of the chromosomal passenger complex (CPC), acomplex that acts as a key regulator of mitosis The CPC complexhas essential functions at the centromere in ensuring correctchromosome alignment and segregation and is required forchromatin-induced microtubule stabilization and spindle assemblyActs as a scaffold regulating CPC localization and activity TheC-terminus associates with AURKB or AURKC, the N-terminusassociated with BIRC5/survivin and CDCA8/borealin tethers the CPCto the inner centromere, and the microtubule binding activitywithin the central SAH domain directs AURKB/C toward substratesnear microtubules (PubMed:15316025, PubMed:12925766,PubMed:27332895) The flexibility of the SAH domain is proposed toallow AURKB/C to follow substrates on dynamic microtubules whileensuring CPC docking to static chromatin (By similarity)Activates AURKB and AURKC (PubMed:27332895) Required forlocalization of CBX5 to mitotic centromeres (PubMed:21346195)Controls the kinetochore localization of BUB1 (PubMed:16760428)
The signal from unattached kinetochores is amplified through a Mad2 inhibitory signal that is propagated by the binding of Mad1 to the kinetochore, the association of Mad2 with Mad1, the conversion of Mad2 conformation to an inhibitory form through its association with Mad1 and finally the release of the inhibitory form of Mad2 from the kinetochore
While sister chromatids resolve in prometaphase, separating along chromosomal arms, the cohesion of sister centromeres persists until anaphase. At the anaphase onset, the anaphase promoting complex/cyclosome (APC/C) ubiquitinates PTTG1 (securin), targeting it for degradation (Hagting et al. 2002). PTTG1 acts as an inhibitor of ESPL1 (known as separin i.e. separase). Hence, PTTG1 removal initiated by APC/C, enables ESPL1 to become catalytically active (Zou et al. 1999, Waizenegger et al. 2002). ESPL1 undergoes autoleavage (Waizenegger et al. 2002) and also cleaves RAD21 subunit of centromeric cohesin (Hauf et al. 2001). RAD21 cleavage promotes dissociation of cohesin complexes from sister centromeres, leading to separation of sister chromatids. Subsequent movement of sister chromatids to opposite poles of the mitotic spindle segregates replicated chromosomes to two daughter cells (Waizenegger et al. 2000, Hauf et al. 2001, Waizenegger et al. 2002)
The resolution of sister chromatids in mitotic prometaphase involves removal of cohesin complexes from chromosomal arms, with preservation of cohesion at centromeres (Losada et al. 1998, Hauf et al. 2001, Hauf et al. 2005). CDK1-mediated phosphorylation of cohesin-bound CDCA5 (Sororin) at threonine T159 provides a docking site for PLK1, enabling PLK1-mediated phosphorylation of cohesin subunits STAG2 (SA2) and RAD21 (Hauf et al. 2005, Dreier et al. 2011, Zhang et al. 2011). Further phosphorylation of CDCA5 by CDK1 results in dissociation of CDCA5 from cohesin complex, which restores the activity of WAPAL in removing STAG2-phosphorylated cohesin from chromosomal arms (Hauf et al. 2005, Gandhi et al. 2006, Kueng et al. 2006, Shintomi and Hirano 2006, Nishiyama et al. 2010, Zhang et al. 2011). At centromeres, kinetochore proteins shugoshins (SGOL1 and SGOL2) enable PP2A-B56 (also a kinetochore constituent) to dephosphorylate the STAG2 subunit of centromeric cohesin. Dephosphorylation of STAG2 enables maintenance of centromeric cohesion, thus preventing separation of sister chromatids until anaphase (Salic et al. 2004, Kitajima et al. 2004, Kitajima et al. 2005, Kitajima et al. 2006)
The sliding clamp protein PCNA, Aurora-A, Aurora-B, Borealin, and various topoisomerases can be SUMOylated (reviewed in Wan et al. 2012). SUMOylation of PCNA appears to reduce formation of double-strand breaks and inappropriate recombination (reviewed in Watts 2006, Watts 2007, Dieckman et al. 2012, Gazy and Kupiec 2012). SUMOylation of Aurora-A, Aurora-B, and Borealin is necessary for proper chromosome segregation. SUMOylation of topoisomerases is observed in response to damage caused by inhibitors of topoisomerases
Formins are a family of proteins with 15 members in mammals, organized into 8 subfamilies. Formins are involved in the regulation of actin cytoskeleton. Many but not all formin family members are activated by RHO GTPases. Formins that serve as effectors of RHO GTPases belong to different formin subfamilies but they all share a structural similarity to Drosophila protein diaphanous and are hence named diaphanous-related formins (DRFs).
DRFs activated by RHO GTPases contain a GTPase binding domain (GBD) at their N-terminus, followed by formin homology domains 3, 1, and 2 (FH3, FH1, FH2) and a diaphanous autoregulatory domain (DAD) at the C-terminus. Most DRFs contain a dimerization domain (DD) and a coiled-coil region (CC) in between FH3 and FH1 domains (reviewed by Kuhn and Geyer 2014). RHO GTPase-activated DRFs are autoinhibited through the interaction between FH3 and DAD which is disrupted upon binding to an active RHO GTPase (Li and Higgs 2003, Lammers et al. 2005, Nezami et al. 2006). Since formins dimerize, it is not clear whether the FH3-DAD interaction is intra- or intermolecular. FH2 domain is responsible for binding to the F-actin and contributes to the formation of head-to-tail formin dimers (Xu et al. 2004). The proline-rich FH1 domain interacts with the actin-binding proteins profilins, thereby facilitating actin recruitment to formins and accelerating actin polymerization (Romero et al. 2004, Kovar et al. 2006).
Different formins are activated by different RHO GTPases in different cell contexts. FMNL1 (formin-like protein 1) is activated by binding to the RAC1:GTP and is involved in the formation of lamellipodia in macrophages (Yayoshi-Yamamoto et al. 2000) and is involved in the regulation of the Golgi complex structure (Colon-Franco et al. 2011). Activation of FMNL1 by CDC42:GTP contributes to the formation of the phagocytic cup (Seth et al. 2006). Activation of FMNL2 (formin-like protein 2) and FMNL3 (formin-like protein 3) by RHOC:GTP is involved in cancer cell motility and invasiveness (Kitzing et al. 2010, Vega et al. 2011). DIAPH1, activated by RHOA:GTP, promotes elongation of actin filaments and activation of SRF-mediated transcription which is inhibited by unpolymerized actin (Miralles et al. 2003). RHOF-mediated activation of DIAPH1 is implicated in formation of stress fibers (Fan et al. 2010). Activation of DIAPH1 and DIAPH3 by RHOB:GTP leads to actin coat formation around endosomes and regulates endosome motility and trafficking (Fernandez-Borja et al. 2005, Wallar et al. 2007). Endosome trafficking is also regulated by DIAPH2 transcription isoform 3 (DIAPH2-3) which, upon activation by RHOD:GTP, recruits SRC kinase to endosomes (Tominaga et al. 2000, Gasman et al. 2003). DIAPH2 transcription isoform 2 (DIAPH2-2) is involved in mitosis where, upon being activated by CDC42:GTP, it facilitates the capture of astral microtubules by kinetochores (Yasuda et al. 2004, Cheng et al. 2011). DIAPH2 is implicated in ovarian maintenance and premature ovarian failure (Bione et al. 1998). DAAM1, activated by RHOA:GTP, is involved in linking WNT signaling to cytoskeleton reorganization (Habas et al. 2001)
The dissolution of the nuclear membrane marks the beginning of the prometaphase. Kinetochores are created when proteins attach to the centromeres. Microtubules then attach at the kinetochores, and the chromosomes begin to move to the metaphase plate
Affinity Capture-Western, Co-localization, Reconstituted Complex, Two-hybrid, anti bait coimmunoprecipitation, anti tag coimmunoprecipitation, protein kinase assay, proximity ligation assay, proximity-dependent biotin identification, pull down, two hybrid
association, direct interaction, phosphorylation reaction, physical, physical association
Affinity Capture-MS, Affinity Capture-Western, anti bait coimmunoprecipitation, anti tag coimmunoprecipitation, fluorescence microscopy, protein kinase assay, pull down
association, colocalization, phosphorylation reaction, physical, physical association
Affinity Capture-MS, Affinity Capture-Western, Two-hybrid, anti bait coimmunoprecipitation, anti tag coimmunoprecipitation, fluorescence microscopy, pull down, two hybrid
association, colocalization, physical, physical association
Affinity Capture-Western, Co-localization, Reconstituted Complex, Two-hybrid, anti bait coimmunoprecipitation, anti tag coimmunoprecipitation, two hybrid
Affinity Capture-Western, Co-localization, Reconstituted Complex, Two-hybrid, anti bait coimmunoprecipitation, anti tag coimmunoprecipitation, protein kinase assay, proximity ligation assay, proximity-dependent biotin identification, pull down, two hybrid
association, direct interaction, phosphorylation reaction, physical, physical association
Affinity Capture-MS, Affinity Capture-Western, anti bait coimmunoprecipitation, anti tag coimmunoprecipitation, fluorescence microscopy, protein kinase assay, pull down
association, colocalization, phosphorylation reaction, physical, physical association
Affinity Capture-MS, Affinity Capture-Western, Two-hybrid, anti bait coimmunoprecipitation, anti tag coimmunoprecipitation, fluorescence microscopy, pull down, two hybrid
association, colocalization, physical, physical association
Affinity Capture-Western, Co-localization, Reconstituted Complex, Two-hybrid, anti bait coimmunoprecipitation, anti tag coimmunoprecipitation, two hybrid
Affinity Capture-Western, Co-localization, Reconstituted Complex, Two-hybrid, anti bait coimmunoprecipitation, anti tag coimmunoprecipitation, protein kinase assay, proximity ligation assay, proximity-dependent biotin identification, pull down, two hybrid
association, direct interaction, phosphorylation reaction, physical, physical association
Affinity Capture-MS, Affinity Capture-Western, anti bait coimmunoprecipitation, anti tag coimmunoprecipitation, fluorescence microscopy, protein kinase assay, pull down
association, colocalization, phosphorylation reaction, physical, physical association
Affinity Capture-MS, Affinity Capture-Western, Two-hybrid, anti bait coimmunoprecipitation, anti tag coimmunoprecipitation, fluorescence microscopy, pull down, two hybrid
association, colocalization, physical, physical association
Affinity Capture-Western, Co-localization, Reconstituted Complex, Two-hybrid, anti bait coimmunoprecipitation, anti tag coimmunoprecipitation, two hybrid
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