Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
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Target Concepts:
Gene/Protein
Disease
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Query: EC:2.7.11.1 (
protein kinase
)
81,284
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
P1 protamines isolated from ejaculated human, stallion, bull, boar and ram spermatozoa and P2 protamines from human and stallion spermatozoa were subjected, after alkaline phosphatase treatment, to in vitro phosphorylation reactions using
cAMP-dependent protein kinase
(
PKA
) and protein kinase C (PKC). All P1 protamines were phosphorylated by
PKA
, whereas P2 protamines were phosphorylated only by PKC. In addition, human, stallion and boar, but not bull and ram, P1 protamines were phosphorylated by PKC. After phosphoamino acid analysis, the protamines showing positive signals for phosphoserine (P-Ser) were subjected to P-Ser conversion reaction and protein sequencing. Only stallion (St1) and human (
HP1
) P1 protamines contained P-Ser after
PKA
phosphorylation, located in the middle region of the molecule, i.e., at Ser29 in St1 and Ser28 in
HP1
. All other phosphorylated P1 protamines contained only P-Thr, which could not be further localized in the sequence with the present methods. After PKC phosphorylation, the internally located Ser residues in human (ser21) and stallion (Ser29) P1 protamines were phosphorylated and, in boar P1 protamine, only Thr43 was slightly phosphorylated. The N-terminally located Ser residues in P1 protamines, which are known to be phosphorylated in vivo, were not phosphorylated by either kinase, indicating that there must still be other types of protamine kinases in sperm cells responsible for their phosphorylation. Within P2 protamines, HP2 was equally well phosphorylated at all Ser residues in addition to some Thr phosphorylation, whereas, in St2, Ser32 was the main target for PKC phosphorylation in vitro. Collectively, PKC is a good candidate for in vivo phosphorylation of P2 protamines and
PKA
for phosphorylation of some hydroxyamino acid residues in P1 protamines.
...
PMID:P2 protamines are phosphorylated in vitro by protein kinase C, whereas P1 protamines prefer cAMP-dependent protein kinase. A comparative study of five mammalian species. 803 90
Human cytomegalovirus phosphoprotein pp65 is targeted to the cell nucleus immediately after infection. Deletion and point mutation analysis of the pp65 gene expressed in insect cells showed that two hydrophilic regions (
HP1
and HP2) within the pp65 C-terminal 40% each harboured an independent nuclear localization signal (NLS); strong association to the nuclear stroma also requires the N-terminal domain. Either region, when fused to chloramphenicol acetyltransferase, localized the reporter protein to the nucleus in insect cells as well as in NIH 3T3 cells and human lung fibroblasts. In addition,
HP1
was found to be the target of pp65 Ser/Thr phosphorylation in insect cells and a prokaryotically expressed
HP1
was actively phosphorylated in vitro by
casein kinase II
, for which two site clusters map in
HP1
. These findings indicate that pp65 includes two NLSs, one of which has the potential to be modulated by phosphorylation.
...
PMID:Human cytomegalovirus pp65 lower matrix phosphoprotein harbours two transplantable nuclear localization signals. 868
HP1
is an essential heterochromatin-associated protein in Drosophila.
HP1
has dosage-dependent effects on the silencing of euchromatic genes that are mislocalized to heterochromatin and is required for the normal expression of at least two heterochromatic genes.
HP1
is multiply phosphorylated in vivo, and
HP1
hyperphosphorylation is correlated with heterochromatin assembly during development. The purpose of this study was to test whether
HP1
phosphorylation modifies biological activity and biochemical properties of
HP1
. To determine sites of
HP1
phosphorylation in vivo and whether phosphorylation affects any biochemical properties of
HP1
, we expressed Drosophila
HP1
in lepidopteran cultured cells using a recombinant baculovirus vector. Phosphopeptides were identified by matrix-assisted laser desorption ionization/time of flight mass spectroscopy; these peptides contain target sites for
casein kinase II
, protein tyrosine kinase, and PIM-1 kinase. Purified
HP1
from bacterial (unphosphorylated) and lepidopteran (phosphorylated) cells has similar secondary structure. Phosphorylation has no effect on
HP1
self-association but alters the DNA binding properties of
HP1
, suggesting that phosphorylation could differentially regulate
HP1
-dependent interactions. Serine-to-alanine and serine-to-glutamate substitutions at consensus
protein kinase
motifs resulted in reduction or loss of silencing activity of mutant
HP1
in transgenic flies. These results suggest that dynamic phosphorylation/dephosphorylation regulates
HP1
activity in heterochromatic silencing.
...
PMID:Phosphorylation site mutations in heterochromatin protein 1 (HP1) reduce or eliminate silencing activity. 1112 21
The dynamics of chromatin-associated proteins control the accessibility of DNA to essential biological transactions like transcription, replication, recombination and repair. Here, we briefly outline what is known about the chromatin changes that occur during the cellular response to DNA breakage, focusing on our recent findings revealing that the chromatin factor HP1beta is mobilized within seconds after DNA damage by an unrecognized signaling cascade mediated by
casein kinase 2
(
CK2
) phosphorylation, paving the way for histone H2AX phosphorylation. We also show here that HP1beta mobilization is neither associated with histone H3 modification on Ser10, an alteration proposed to assist in
HP1
ejection from chromatin, nor with evidence of a physical interaction between HP1beta and the
CK2
regulatory subunit. Interestingly, following its rapid mobilization, we find that HP1beta gradually re-accumulates on damaged chromatin over a longer time period, suggesting that temporal changes in HP1beta dynamics and interaction with chromatin may assist in different stages of the cellular response to DNA breakage.
...
PMID:Paving the way for H2AX phosphorylation: chromatin changes in the DNA damage response. 1937 76
The pathways that signal double-strand DNA breaks (DSBs) in mammalian cells are central to the maintenance of genome integrity. We have reported (Ayoub et al., Nature 2008; 453: 682-6) that the rapid mobilization of the heterochromatin protein, HP1beta, within seconds from DSB sites promotes chromatin changes like H2AX phosphorylation that trigger this response. Notably, this paper and a subsequent report (Ayoub et al., Cell Cycle 2009; 8: 1494-500), demonstrate that transient HP1beta mobilization is followed by its accumulation over time at DSB sites. Indeed, two recent papers (Luijsterburg et al., J Cell Biol 2009; 185:577-86 and Zarebski et al., Cytometry A May 2009) suggest that
HP1
recruitment to damage sites, rather than its rapid mobilization, is the predominant behaviour exhibited by this protein. Here, we present new experimental analyses which corroborate that fluorophore-tagged HP1beta exhibits two distinct behaviours at DSB sites in living cells - rapid, transient mobilization, most evident in heterochromatic regions, followed by slower recruitment. Experimental methods allowing visualization of these behaviours are described. Interestingly, chemical inhibition of the DNA-damage responsive enzyme,
casein kinase 2
(
CK2
), suppresses HP1beta mobilization while permitting recruitment. Our findings reconcile recent findings in a new model, wherein rapid HP1beta mobilization from DSBs mediated by its phosphorylation on Thr51 by
CK2
, is followed by, and may overlap with, its accumulation at these sites via the chromoshadow domain, independent of Thr51. Our analyses provide fresh insight into the earliest events that trigger the DNA damage response in mammalian cells.
...
PMID:Mobilization and recruitment of HP1: a bimodal response to DNA breakage. 1965 22
Cell cycle-dependent expression of canonical histone proteins enables newly synthesized DNA to be integrated into chromatin in replicating cells. However, the molecular basis of cell cycle-dependency in the switching of histone gene regulation remains to be uncovered. Here, we report the identification and biochemical characterization of a molecular switcher, HERS (histone gene-specific epigenetic repressor in late S phase), for nucleosomal core histone gene inactivation in Drosophila. HERS protein is phosphorylated by a
cyclin-dependent kinase
(Cdk) at the end of S-phase. Phosphorylated HERS binds to histone gene regulatory regions and anchors
HP1
and Su(var)3-9 to induce chromatin inactivation through histone H3 lysine 9 methylation. These findings illustrate a salient molecular switch linking epigenetic gene silencing to cell cycle-dependent histone production.
...
PMID:Epigenetic silencing of core histone genes by HERS in Drosophila. 2236 29
Mating-type switching in Schizosaccharomyces pombe entails programmed gene conversion events regulated by DNA replication, heterochromatin, and the
HP1
-like chromodomain protein Swi6. The whole mechanism remains to be fully understood. Using a gene deletion library, we screened ~ 3400 mutants for defects in the donor selection step where a heterochromatic locus, mat2-P or mat3-M, is chosen to convert the expressed mat1 locus. By measuring the biases in mat1 content that result from faulty directionality, we identified in total 20 factors required for donor selection. Unexpectedly, these included the histone H3 lysine 4 (H3K4) methyltransferase complex subunits Set1, Swd1, Swd2, Swd3, Spf1 and Ash2, the BRE1-like ubiquitin ligase Brl2 and the Elongator complex subunit Elp6. The mutant defects were investigated in strains with reversed donor loci (mat2-M mat3-P) or when the SRE2 and SRE3 recombination enhancers, adjacent to the donors, were deleted or transposed. Mutants in Set1C, Brl2 or Elp6 altered balanced donor usage away from mat2 and the SRE2 enhancer, towards mat3 and the SRE3 enhancer. The defects in these mutants were qualitatively similar to heterochromatin mutants lacking Swi6, the NAD+-dependent histone deacetylase Sir2, or the Clr4, Raf1 or Rik1 subunits of the histone H3 lysine 9 (H3K9) methyltransferase complex, albeit not as extreme. Other mutants showed clonal biases in switching. This was the case for mutants in the NAD+-independent deacetylase complex subunits Clr1, Clr2 and Clr3, the
casein kinase
CK2 subunit Ckb1, the ubiquitin ligase component Pof3, and the CENP-B homologue Cbp1, as well as for double mutants lacking Swi6 and Brl2, Pof3, or Cbp1. Thus, we propose that Set1C cooperates with Swi6 and heterochromatin to direct donor choice to mat2-P in M cells, perhaps by inhibiting the SRE3 recombination enhancer, and that in the absence of Swi6 other factors are still capable of imposing biases to donor choice.
...
PMID:New insights into donor directionality of mating-type switching in Schizosaccharomyces pombe. 2985 1
Heterochromatin is a condensed and transcriptionally silent chromatin structure and that plays important roles in epigenetic regulation of the genome. Two types of heterochromatin exist: constitutive heterochromatin is primarily associated with trimethylation of histone H3 at lysine 9 (H3K9me3), and facultative heterochromatin with trimethylation of H3 at lysine 27 (H3K27me3). The methylated histones are bound by the chromodomain of histone code 'reader' proteins:
HP1
family proteins for H3K9me3 and Polycomb family proteins for H3K27me3. Each repressive reader associates with various 'effector' proteins that provide the functional basis of heterochromatin. Heterochromatin regulation is primarily achieved by controlling histone modifications. However, recent studies have revealed that the repressive readers are phosphorylated, like other regulatory proteins, suggesting that phosphorylation also participates in heterochromatin regulation. Detailed studies have shown that phosphorylation of readers affects the binding specificities of chromodomains for methylated histone H3, as well as the binding of effector proteins. Thus, phosphorylation adds another layer to heterochromatin regulation. Interestingly,
casein kinase 2
, a strong and predominant kinase within the cell, is responsible for phosphorylation of repressive readers. In this commentary, I summarize the regulation of repressive readers by
casein kinase 2
-dependent phosphorylation and discuss the functional meaning of this modification.
...
PMID:Phosphorylation of repressive histone code readers by casein kinase 2 plays diverse roles in heterochromatin regulation. 3119 32
