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Drug
Enzyme
Compound
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Query: EC:2.4.1.14 (
SPS
)
813
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Sucrose-phosphate synthase (
SPS
;
EC 2.4.1.14
) is regulated in part by reversible protein phosphorylation. When dephospho-
SPS
is partially purified from illuminated spinach leaves and incubated with [gamma-32P]ATP the enzyme is phosphorylated by a copurifying protein kinase. In this report, 32P-phosphopeptides from tryptic digests of in vitro phosphorylated
SPS
were purified by metal-ion affinity chromatography and reversed-phase high-performance liquid chromatography. Three distinct 32P-phosphopeptides were resolved. Edman sequencing of the major phosphopeptide (which contained > 80% of the total 32P) identified the amino acid sequence as Ile-Ser-Ser(P)-Val-Glu-Met-Met-Asp-Asn-Trp-Ala-Asn-
Thr
-Phe-Lys. This sequence corresponds to residues 156 to 170 of the deduced amino acid sequence of spinach
SPS
[Klein, R. R., Crafts-Brandner, S. J., and Salvucci, M. E. (1993) Planta 190, 498-510, and Sonnewald, U., Quick, W. P., MacRae, E., Krause, K.-P., and Stitt, M. (1993) Planta 189, 174-181]. Identification of the phosphoseryl residue was accomplished by manual Edman sequencing. The two other phosphopeptides, which each contained less than 10% of the total 32P, were not sequenced. An Escherichia coli expressed, 26-kDa fragment of
SPS
which contains the major phosphorylation site was a substrate for the protein kinase which copurifies with
SPS
. Two-dimensional peptide mapping analysis of this fragment showed the major phosphopeptide was present but not the other site(s), suggesting that other peptides are derived from a site other than Ser158. These results provide additional indirect evidence for the presence of multiple phosphorylation sites in
SPS
.
...
PMID:Identification of the major regulatory phosphorylation site in sucrose-phosphate synthase. 827 10
The activity and allosteric properties of plant phosphoenolpyruvate carboxylase (PEPC; EC 4.1.1.31) are controlled posttranslationally by specific reversible phosphorylation of a strictly conserved serine residue near the N-terminus. This up/down-regulation of PEPC is catalyzed by a dedicated and highly regulated serine/
threonine
(Ser/
Thr
) kinase (PEPC-kinase) and an opposing type-2A Ser/
Thr
phosphatase (PP2A). In marked contrast to PEPC-kinase, the PP2A holoenzyme from photosynthetic tissue has been virtually unstudied to date. In the present investigation, we have partially purified and characterized the native form of this PP2A from illuminated leaves of maize (Zea mays L.), a C4 plant, using maize [32P]PEPC as substrate. Various conventional chromatographic matrices, together with thiophosphorylated C4 PEPC-peptide and microcystin-LR affinity-supports, were exploited for the enrichment of this PP2A from soluble leaf extracts. Biochemical and immunological results indicate that the C4-leaf holoenzyme is analogous to other eukaryotic PP2As in being a approximately 170-kDa heteromer comprised of a core PP2Ac-A heterodimer (approximately 38- and approximately 65-kDa subunits, respectively) complexed with a putative, approximately 74-kDa B-type regulatory/targeting subunit. This heterotrimer lacks any strict substrate specificity in that it dephosphorylates C4 PEPC, mammalian phosphorylase a, and casein in vitro. This activity is independent of free Me2+, insensitive to levamisole and the Inhibitor-2 protein that targets PP1, activated by several polycations such as protamine and poly-L-lysine, and highly sensitive to inhibition by microcystin-LR and okadaic acid (IC50 approximately 30 pM), all of which are diagnostic features of yeast and mammalian PP2As. In addition, this C4-leaf PP2A holoenzyme (i) is inhibited in vitro by physiological concentrations of certain C4 PEPC-related metabolites (L-malate, PEP, glucose 6-phosphate, but not the activator glycine) when either 32P-labeled maize PEPC or rabbit muscle phosphorylase a is used as substrate, suggesting a direct effect on this Ser/
Thr
phosphatase; and (ii) displays, at best, only modest light/dark effects in vivo on its apparent molecular mass, component core subunits and activity against C4 PEPC, in marked contrast to the opposing activity of PEPC-kinase in C4 and Crassulacean acid metabolism leaves. This report represents one of the few studies of a heteromeric PP2A holoenzyme from photosynthetic tissue that dephosphorylates a known target enzyme in plants, such as PEPC,
sucrose-phosphate synthase
or nitrate reductase.
...
PMID:Partial purification and biochemical characterization of a heteromeric protein phosphatase 2A holoenzyme from maize (Zea mays L.) leaves that dephosphorylates C4 phosophoenolpyruvate carboxylase. 1150 60
A three amino acid sequence, Ser/
Thr
-Pro-Ser/
Thr
, was recently identified and characterized as a novel nuclear localization signal (Chuderland et al., 2008). The immediate-early gene product, early growth response-1 is a three zinc finger containing transcription factor implicated in a wide variety of pathologies, and has a bipartite nuclear localization domain identified two decades ago. Efficient nuclear localization of Egr-1 is vital to its function as a transcription factor. Interestingly, Egr-1 also contains a C-terminal
SPS
domain (residues 482-484 in murine Egr-1). We hypothesized that (482)
SPS
(484) may also serve as a novel nuclear localization signal in Egr-1. We found that this sequence directs Egr-1 to the nucleus in transfected Chinese hamster ovary cells and show by co-immunoprecipitation analysis that Egr-1 forms a complex with importin-7. (482)
SPS
(484) is required for Egr-1's interaction with importin-7. Moreover, importin-7 knockdown with RNAi showed that Egr-1 nuclear translocation is importin-7-dependent. This study demonstrates that the nuclear translocation of Egr-1 is partially dependent on (482)
SPS
(484) and involves importin-7, and sheds light on the molecular mechanisms regulating the cellular localization of this pathophysiologically important transcription factor.
...
PMID:Nuclear import of early growth response-1 involves importin-7 and the novel nuclear localization signal serine-proline-serine. 2141 60
Activation of the Na(+)-K(+)-2Cl(-)-cotransporter (NKCC2) and the Na(+)-Cl(-)-cotransporter (NCC) by vasopressin includes their phosphorylation at defined, conserved N-terminal
threonine
and serine residues, but the kinase pathways that mediate this action of vasopressin are not well understood. Two homologous Ste20-like kinases,
SPS
-related proline/alanine-rich kinase (SPAK) and oxidative stress responsive kinase (OSR1), can phosphorylate the cotransporters directly. In this process, a full-length SPAK variant and OSR1 interact with a truncated SPAK variant, which has inhibitory effects. Here, we tested whether SPAK is an essential component of the vasopressin stimulatory pathway. We administered desmopressin, a V2 receptor-specific agonist, to wild-type mice, SPAK-deficient mice, and vasopressin-deficient rats. Desmopressin induced regulatory changes in SPAK variants, but not in OSR1 to the same degree, and activated NKCC2 and NCC. Furthermore, desmopressin modulated both the full-length and truncated SPAK variants to interact with and phosphorylate NKCC2, whereas only full-length SPAK promoted the activation of NCC. In summary, these results suggest that SPAK mediates the effect of vasopressin on sodium reabsorption along the distal nephron.
...
PMID:SPAK differentially mediates vasopressin effects on sodium cotransporters. 2339 17
