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Query: EC:2.7.11.22 (
cdc2
)
8,319
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
CAK1
encodes a protein kinase in Saccharomyces cerevisiae whose sole essential mitotic role is to activate the
Cdc28p
cyclin-dependent kinase by phosphorylation of threonine-169 in its activation loop. SMK1 encodes a sporulation-specific mitogen-activated protein (MAP) kinase homolog that is required to regulate the postmeiotic events of spore wall assembly.
CAK1
was previously identified as a multicopy suppressor of a weakened smk1 mutant and shown to be required for spore wall assembly. Here we show that Smk1p, like other MAP kinases, is phosphorylated in its activation loop and that Smk1p is not activated in a cak1 missense mutant. Strains harboring a hyperactivated allele of CDC28 that is
CAK1
independent and that lacks threonine-169 still require
CAK1
to activate Smk1p. The data indicate that
Cak1p
functions upstream of Smk1p by activating a protein kinase other than
Cdc28p
. We also found that mutants lacking
CAK1
are blocked early in meiotic development, as they show substantial delays in premeiotic DNA synthesis and defects in the expression of sporulation-specific genes, including IME1. The early meiotic role of
Cak1p
, like the postmeiotic role in the Smk1p pathway, is CDC28 independent. The data indicate that
Cak1p
activates multiple steps in meiotic development through multiple protein kinase targets.
...
PMID:CAK1 promotes meiosis and spore formation in Saccharomyces cerevisiae in a CDC28-independent fashion. 1173 22
Cyclin-dependent kinases (cdks) coordinate progression through the eukaryotic cell cycle and require phosphorylation by a
cdk-activating kinase
(
CAK
) for full activity. In most eukaryotes Cdk7 is the catalytic subunit of a heterotrimeric
CAK
(Cdk7-cyclin H-Mat1) that is also involved in transcription as part of the transcription factor IIH complex. The Saccharomyces cerevisiae
CAK
,
Cak1p
, is a monomeric protein kinase with an atypical sequence and unusual biochemical properties compared with trimeric CAKs and other protein kinases. We sought to determine whether these properties were shared by a small group of monomeric CAKs that can function in place of
CAK1
in S. cerevisiae. We found that Schizosaccharomyces pombe Csk1, Candida albicans
Cak1
, and Arabidopsis thaliana Cak1At, like
Cak1p
, all displayed a preference for cyclin-free cdk substrates, were insensitive to the protein kinase inhibitor 5'-fluorosulfonylbenzoyladenosine (FSBA), and were insensitive to mutation of a highly conserved lysine residue found in the nucleotide binding pocket of all protein kinases. The S. pombe and C. albicans kinases also resembled
Cak1p
in their kinetics of nucleotide and protein substrate utilization. Conservation of these unusual properties in fungi and plants points to shared evolutionary requirements not met by Cdk7 and raises the possibility of developing antifungal agents targeting CAKs.
...
PMID:Comparison of Cak1p-like cyclin-dependent kinase-activating kinases. 1208 29
Cyclin-dependent kinases (Cdks) were originally identified as regulators of eukaryotic cell cycle progression, but several Cdks were subsequently shown to perform important roles as transcriptional regulators. While the mechanisms regulating the Cdks involved in cell cycle progression are well documented, much less is known regarding how the Cdks that are involved in transcription are regulated. In Saccharomyces cerevisiae,
Bur1
and Bur2 comprise a Cdk complex that is involved in transcriptional regulation, presumably mediated by its phosphorylation of the carboxy-terminal domain (CTD) of the largest subunit of RNA polymerase II. To investigate the regulation of
Bur1
in vivo, we searched for high-copy-number suppressors of a bur1 temperature-sensitive mutation, identifying a single gene,
CAK1
.
Cak1
is known to activate two other Cdks in yeast by phosphorylating a threonine within their conserved T-loop domains.
Bur1
also has the conserved threonine within its T loop and is therefore a potential direct target of
Cak1
. Additional tests establish a direct functional interaction between
Cak1
and the
Bur1
-Bur2 Cdk complex:
Bur1
is phosphorylated in vivo, both the conserved
Bur1
T-loop threonine and
Cak1
are required for phosphorylation and
Bur1
function in vivo, and recombinant
Cak1
stimulates CTD kinase activity of the purified
Bur1
-Bur2 complex in vitro. Thus, both genetic and biochemical evidence demonstrate that
Cak1
is a physiological regulator of the
Bur1
kinase.
...
PMID:Activation of the Bur1-Bur2 cyclin-dependent kinase complex by Cak1. 1221 32
CAK1
encodes an essential protein kinase in Saccharomyces cerevisiae that is required for activation of the
Cdc28p
Cdk.
CAK1
also has several CDC28-independent functions that are unique to meiosis. The earliest of these functions is to induce S phase, which is regulated differently in meiosis than in mitosis. In mitosis,
Cdc28p
controls its own S-phase-promoting activity by signaling the destruction of its inhibitor, Sic1p. In meiosis, Sic1p destruction is signaled by the meiosis-specific Ime2p protein kinase. Our data show that
Cak1p
is required to activate Ime2p through a mechanism that requires threonine 242 and tyrosine 244 in Ime2p's activation loop. This activation promotes autophosphorylation and accumulation of multiply phosphorylated forms of Ime2p during meiotic development. Consistent with
Cak1p
's role in activating Ime2p, cells lacking
Cak1p
are deficient in degrading Sic1p. Deletion of SIC1 or overexpression of IME2 can partially suppress the S-phase defect in cak1 mutant cells, suggesting that Ime2p is a key target of
Cak1p
regulation. These data show that
Cak1p
is required for the destruction of Sic1p in meiosis, as in mitosis, but in meiosis, it functions through a sporulation-specific kinase.
...
PMID:The Cdk-activating kinase Cak1p promotes meiotic S phase through Ime2p. 1461 12
Male germ cell-associated kinase (MAK) and intestinal cell kinase (ICK) are nuclear Cdc2-related kinases with nearly identical N-terminal catalytic domains and more divergent C-terminal noncatalytic domains. The catalytic domain is also related to mitogen-activated protein kinases (MAPKs) and contains a corresponding TDY motif. Nuclear localization of ICK requires subdomain XI and interactions of the conserved Arg-272, but not kinase activity or, surprisingly, any of the noncatalytic domain. Further, nuclear localization of ICK is required for its activation. ICK is activated by dual phosphorylation of the TDY motif. Phosphorylation of Tyr-159 in the TDY motif requires ICK autokinase activity but confers only basal kinase activity. Full activation requires additional phosphorylation of Thr-157 in the TDY motif. Coexpression of ICK with constitutively active MEK1 or MEK5 fails to increase ICK phosphorylation or activity, suggesting that MEKs are not involved. ICK and MAK are related to Ime2p in budding yeast, and cyclin-dependent protein kinase-activating kinase
Cak1p
has been placed genetically upstream of Ime2p. Recombinant
Cak1p
phosphorylates Thr-157 in the TDY motif of recombinant ICK and activates its activity in vitro. Coexpression of ICK with wild-type
CAK1
but not kinase-inactive
CAK1
in cells also increases ICK phosphorylation and activity. Our studies establish ICK as the prototype for a new group of MAPK-like kinases requiring dual phosphorylation at TDY motifs.
...
PMID:Activation of a nuclear Cdc2-related kinase within a mitogen-activated protein kinase-like TDY motif by autophosphorylation and cyclin-dependent protein kinase-activating kinase. 1598 18
In a screen for cell wall defects in Saccharomyces cerevisiae, we isolated a strain carrying a mutation in the Cdc28-activating kinase
CAK1
. The cak1P212S mutant cells exhibit multiple, elongated and branched buds, beta(1,3)glucan-poor regions of the cell periphery and lysed upon osmotic shock after treatment with the chitin synthase III inhibitor Nikkomycin Z. Ultrastructural examination of cak1P212S mutants revealed a thin, uneven cell wall and marked abnormalities in septum formation. In all of the above aspects, the cak1P212S mutants are similar to previously described cla4 mutants, suggesting that the cell wall defects are common to mutants with hyperpolarized growth. In cak1P212S mutants, chitin accumulates all over the surface of the cells and glucan synthase activity is located preferentially to the tips of elongated buds. We conclude that the cell wall weakness in cak1P212S mutants is caused by hyperpolarized secretion of glucan synthase and lack of reinforcement of the lateral cell walls. Showing that the defect depends at least in part on Cdc28, the cak1P212S hyperpolarized growth phenotype can be suppressed by a
Cak1
-independent Cdc28-allele. The results underline the importance of a minor cell wall component, the chitin of lateral walls, for the integrity of the cell in a stress situation.
...
PMID:Hyperpolarized growth of Saccharomyces cerevisiae cak1P212S and cla4 mutants weakens cell walls and renders cells dependent on chitin synthase 3. 1837 84
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