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Query: EC:3.1.3.16 (
calcineurin
)
17,112
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Chromosome segregation is triggered by the cleavage of cohesins by
separase
. Here we show that in budding yeast separation of the ribosomal DNA (rDNA) and telomeres also requires Cdc14, a
protein phosphatase
known for its role in mitotic exit. Cdc14 shares this role with the FEAR network, which activates Cdc14 during early anaphase, but not the mitotic exit network, which promotes Cdc14 activity during late anaphase. We further show that CDC14 is necessary and sufficient to promote condensin enrichment at the rDNA locus and to trigger rDNA segregation in a condensin-dependent manner. We propose that Cdc14 released by the FEAR network mediates the partitioning of rDNA by facilitating the localization of condensin thereto. This dual role of the FEAR network in initiating mitotic exit and promoting chromosome segregation ensures that exit from mitosis is coupled to the completion of chromosome segregation.
...
PMID:Cdc14 and condensin control the dissolution of cohesin-independent chromosome linkages at repeated DNA. 1513 39
Segregation of homologous maternal and paternal centromeres to opposite poles during meiosis I depends on post-replicative crossing over between homologous non-sister chromatids, which creates chiasmata and therefore bivalent chromosomes. Destruction of sister chromatid cohesion along chromosome arms due to proteolytic cleavage of cohesin's Rec8 subunit by
separase
resolves chiasmata and thereby triggers the first meiotic division. This produces univalent chromosomes, the chromatids of which are held together by centromeric cohesin that has been protected from
separase
by shugoshin (Sgo1/MEI-S332) proteins. Here we show in both fission and budding yeast that Sgo1 recruits to centromeres a specific form of protein phosphatase 2A (
PP2A
). Its inactivation causes loss of centromeric cohesin at anaphase I and random segregation of sister centromeres at the second meiotic division. Artificial recruitment of
PP2A
to chromosome arms prevents Rec8 phosphorylation and hinders resolution of chiasmata. Our data are consistent with the notion that efficient cleavage of Rec8 requires phosphorylation of cohesin and that this is blocked by
PP2A
at meiosis I centromeres.
...
PMID:Protein phosphatase 2A protects centromeric sister chromatid cohesion during meiosis I. 1667 60
Loss of sister-chromatid cohesion triggers chromosome segregation in mitosis and occurs through two mechanisms in vertebrate cells: (1) phosphorylation and removal of cohesin from chromosome arms by mitotic kinases, including Plk1, during prophase, and (2) cleavage of centromeric cohesin by
separase
at the metaphase-anaphase transition. Bub1 and the MEI-S332/Shugoshin (Sgo1) family of proteins protect centromeric cohesin from mitotic kinases during prophase. We show that human Sgo1 binds to protein phosphatase 2A (
PP2A
).
PP2A
localizes to centromeres in a Bub1-dependent manner. The Sgo1-
PP2A
interaction is required for centromeric localization of Sgo1 and proper chromosome segregation in human cells. Depletion of Plk1 by RNA interference (RNAi) restores centromeric localization of Sgo1 and prevents chromosome missegregation in cells depleted of PP2A_Aalpha. Our findings suggest that Bub1 targets
PP2A
to centromeres, which in turn maintains Sgo1 at centromeres by counteracting Plk1-mediated chromosome removal of Sgo1.
...
PMID:PP2A is required for centromeric localization of Sgo1 and proper chromosome segregation. 1667 70
Sister chromatid segregation is triggered at the metaphase-to-anaphase transition by the activation of the protease
separase
. For most of the cell cycle,
separase
activity is kept in check by its association with the inhibitory chaperone securin. Activation of
separase
occurs at anaphase onset, when securin is targeted for destruction by the anaphase-promoting complex or cyclosome E3 ubiquitin protein ligase. This results in the release of the cohesins from chromosomes, which in turn allows the segregation of sister chromatids to opposite spindle poles. Here we show that human securin (hSecurin) forms a complex with enzymatically active protein phosphatase 2A (
PP2A
) and that it is a substrate of the phosphatase, both in vitro and in vivo. Treatment of cells with okadaic acid, a potent inhibitor of
PP2A
, results in various hyperphosphorylated forms of hSecurin which are extremely unstable, due to the action of the Skp1/Cul1/F-box protein complex ubiquitin ligase. We propose that
PP2A
regulates hSecurin levels by counteracting its phosphorylation, which promotes its degradation. Misregulation of this process may lead to the formation of tumors, in which overproduction of hSecurin is often observed.
...
PMID:Protein phosphatase 2A stabilizes human securin, whose phosphorylated forms are degraded via the SCF ubiquitin ligase. 1670 56
Sister chromatid cohesion mediated by the ring-shaped cohesin complex is essential for faithful chromosome segregation. A tight spatial and temporal control of cohesin release is observed in mitosis and meiosis, and a family of proteins known as shugoshins play a major role in this process. Shugoshin (Sgo) protects centromeric cohesin from dissociation in early mitosis and from cleavage by
separase
in meiosis I. Three exciting new reports indicate that this is accomplished by recruiting the serine/threonine protein phosphatase 2A (
PP2A
) to centromeres.((1-3)) The proposed targets of
PP2A
activity include cohesin and Sgo, both of which would otherwise dissociate from chromosomes upon phosphorylation by Polo kinase. Thus, a balance of kinase and phosphatase activities seems to be the key to the conserved mechanism that regulates the stepwise release of cohesin from mitotic and meiotic chromosomes. Additional evidence, however, suggests that this is only part of the story, and that Sgo has also a role independent of
PP2A
.
...
PMID:Shugoshin and PP2A, shared duties at the centromere. 1692 89
Faithful chromosome transmission requires establishment of sister chromatid cohesion during S phase, followed by its removal at anaphase onset. Sister chromatids are tethered together by cohesin, which is displaced from chromosomes through cleavage of its Mcd1 subunit by the
separase
protease.
Separase
is in turn inhibited, up to this moment, by securin. Budding yeast cells respond to morphogenetic defects by a transient arrest in G2 with high securin levels and unseparated chromatids. We show that neither securin elimination nor forced cohesin cleavage is sufficient for anaphase in these conditions, suggesting that other factors contribute to cohesion maintainance in G2. We find that the
protein phosphatase
PP2A bound to its regulatory subunit Cdc55 plays a key role in this process, uncovering a new function for PP2A(Cdc55) in controlling a noncanonical pathway of chromatid cohesion removal.
...
PMID:The budding yeast PP2ACdc55 protein phosphatase prevents the onset of anaphase in response to morphogenetic defects. 1750 22
Spindle elongation in anaphase of mitosis is a cell cycle-regulated process that requires coordination between polymerization, cross-linking, and sliding of microtubules (MTs). Proteins that assemble at the spindle midzone may be important for this process. In this study, we show that Ase1 and the
separase
-Slk19 complex drive midzone assembly in yeast. Whereas the conserved MT-bundling protein Ase1 establishes a midzone,
separase
-Slk19 is required to focus and center midzone components. An important step leading to spindle midzone assembly is the dephosphorylation of Ase1 by the
protein phosphatase
Cdc14 at the beginning of anaphase. Failure to dephosphorylate Ase1 delocalizes midzone proteins and delays the second, slower phase of anaphase B. In contrast, in cells expressing nonphosphorylated Ase1, anaphase spindle extension is faster, and spindles frequently break. Cdc14 also controls the
separase
-Slk19 complex indirectly via the Aurora B kinase. Thus, Cdc14 regulates spindle midzone assembly and function directly through Ase1 and indirectly via the
separase
-Slk19 complex.
...
PMID:Cdc14-regulated midzone assembly controls anaphase B. 1756 91
The onset of anaphase is triggered by the activation of a site-specific protease called
separase
.
Separase
cleaves the chromosomal cohesins holding the duplicated sister chromatids together, allowing sisters to simultaneously separate and segregate to opposite ends of the cell before division. Activated
separase
cleaves not only cohesin, but also itself; however, the biological significance of
separase
self-cleavage has remained elusive. Before anaphase,
separase
is inhibited by at least two mechanisms. The first involves the binding of securin, whereas the second requires the phosphorylation-dependent binding of cyclin-dependent kinase 1 (Cdk1)/cyclin B1. Because securin and Cdk1/cyclin B1 interact with
separase
in a mutually exclusive manner, the degradation of both these inhibitors plays an important role in activating
separase
at anaphase. Here we identify a new
separase
interacting partner, a specific subtype of the heterotrimeric protein phosphatase 2A (
PP2A
).
PP2A
associates with
separase
through the B' (B56) regulatory subunit and does so independently of securin and cyclin B1 binding. The association of
PP2A
with
separase
requires a 55-amino acid domain closely juxtaposed to
separase
autocleavage sites. Strikingly, mutation of these cleavage sites increases
PP2A
binding, suggesting that
separase
cleavage disrupts the interaction of
PP2A
with
separase
. Furthermore, expression of a non-cleavable
separase
, but not a non-cleavable mutant that cannot bind
PP2A
, causes a premature loss of centromeric cohesion. Together these observations provide a new mechanistic insight into a physiological function for
separase
self-cleavage.
...
PMID:Protein phosphatase 2A and separase form a complex regulated by separase autocleavage. 1760 73
Segregation of chromosomes during meiosis I is triggered by
separase
cleavage of the cohesin's Rec8 subunit along chromosome arms. Centromeric cohesin is protected from
separase
cleavage during meiosis I by Sgo1/MEI-S332 proteins in complex with protein phosphatase 2A (
PP2A
). This retention of centromeric sister chromatid cohesion is essential for faithful segregation of chromatids during the second meiotic division. While Sgo1/
PP2A
complex is required for protecting centromeric sister chromatid cohesion during meiosis I, it is not known what renders the centromeric cohesion sensitive to
separase
cleavage during meiosis II. Our data suggest that the absence of Sgo1 and
PP2A
from meiosis II centromeres is not sufficient to render centromeric cohesion sensitive to cleavage by
separase
and additional factors are required to ensure the removal of centromeric cohesion during meiosis II.
...
PMID:What makes centromeric cohesion resistant to separase cleavage during meiosis I but not during meiosis II? 1825 25
Shugoshin proteins form a complex with protein phosphatase 2A (
PP2A
) that protects centromeric cohesin from
separase
-mediated cleavage during yeast meiosis I. Recent work shows that this mechanism is conserved from yeast to mammals. Importantly, a model emerges that explains a long-standing puzzle, namely why the shugoshin-
PP2A
complex mediates protection of centromeric cohesin from
separase
cleavage specifically during meiosis I, but not during meiosis II or mitosis.
...
PMID:Solving the shugoshin puzzle. 1837 37
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