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ABSTRACT: In plant cells, phospholipids are not only membrane components but also act as second messengers interacting with various proteins and regulating diverse cellular processes, including stress signal transduction. Here, we report studies on the effects of various phospholipids on the activity and expression of maize wound-responsive calcium-dependent protein kinase (ZmCPK11). Our results revealed that in leaves treated with n-butanol, a potent inhibitor of phosphatidic acid (PA) synthesis catalyzed by phospholipase D, a significant decrease of ZmCPK11 activity was observed, indicating contribution of PA in the kinase activation. Using lipid binding assays, we demonstrate that among various phospholipids only saturated acyl species (16:0 and 18:0) of phosphatidic acid are able to bind to ZmCPK11. Saturated acyl species of PA are also able to stimulate phosphorylation of exogenous substrates by ZmCPK11 and autophosphorylation of the kinase. The level of ZmCPK11 autophosphorylation is correlated with its enzymatic activity. RT-PCR analysis showed that transcript level of ZmCPK11 in maize leaves increased in response to PA treatment. The influence of PA on the activity and transcript level of ZmCPK11 suggests an involvement of this kinase in a PA-mediated wound signal transduction pathway.
Acta biochimica Polonica 12/2011; 58(4):589-95. · 1.49 Impact Factor
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ABSTRACT: The SnRK2 family members are plant-specific serine/threonine kinases involved in plant response to abiotic stresses and abscisic acid (ABA)-dependent plant development. SnRK2s have been classed into three groups; group 1 comprises kinases not activated by ABA, group 2 comprises kinases not activated or activated very weakly by ABA, and group 3 comprises kinases strongly activated by ABA. So far, the ABA-dependent kinases belonging to group 3 have been studied most thoroughly. They are considered major regulators of plant response to ABA. The regulation of the plant response to ABA via SnRK2s pathways occurs by direct phosphorylation of various downstream targets, for example, SLAC1, KAT1, AtRbohF, and transcription factors required for the expression of numerous stress response genes. Members of group 2 share some cellular functions with group 3 kinases; however, their contribution to ABA-related responses is not clear. There are strong indications that they are positive regulators of plant responses to water deficit. Most probably they complement the ABA-dependent kinases in plant defense against environmental stress. So far, data concerning the physiological role of ABA-independent SnRK2s are very limited; it is to be expected they will be studied extensively in the nearest future.
Omics: a journal of integrative biology 12/2011; 15(12):859-72. · 2.29 Impact Factor
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ABSTRACT: SNF1-related protein kinases 2 (SnRK2s) are plant-specific enzymes involved in environmental stress signaling and abscisic acid-regulated plant development. Here, we report that SnRK2s interact with and are regulated by a plant-specific calcium-binding protein. We screened a Nicotiana plumbaginifolia Matchmaker cDNA library for proteins interacting with Nicotiana tabacum osmotic stress-activated protein kinase (NtOSAK), a member of the SnRK2 family. A putative EF-hand calcium-binding protein was identified as a molecular partner of NtOSAK. To determine whether the identified protein interacts only with NtOSAK or with other SnRK2s as well, we studied the interaction of an Arabidopsis thaliana orthologue of the calcium-binding protein with selected Arabidopsis SnRK2s using a two-hybrid system. All kinases studied interacted with the protein. The interactions were confirmed by bimolecular fluorescence complementation assay, indicating that the binding occurs in planta, exclusively in the cytoplasm. Calcium binding properties of the protein were analyzed by fluorescence spectroscopy using Tb(3+) as a spectroscopic probe. The calcium binding constant, determined by the protein fluorescence titration, was 2.5 ± 0.9 × 10(5) M(-1). The CD spectrum indicated that the secondary structure of the protein changes significantly in the presence of calcium, suggesting its possible function as a calcium sensor in plant cells. In vitro studies revealed that the activity of SnRK2 kinases analyzed is inhibited in a calcium-dependent manner by the identified calcium sensor, which we named SCS (SnRK2-interacting calcium sensor). Our results suggest that SCS is involved in response to abscisic acid during seed germination most probably by negative regulation of SnRK2s activity.
Journal of Biological Chemistry 02/2011; 286(5):3429-41. · 4.77 Impact Factor
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ABSTRACT: A cDNA highly homologous to the known catalytic α subunit of protein kinase CK2 was cloned from maize (Zea mays). It was designated ZmCK2α-4 (accession no. AAF76187). Sequence analysis shows that ZmCK2α-4 and the previously identified ZmCK2α-1 (accession no. X61387) are transcribed from the same gene, ZmPKCK2AL (accession no. Y11649), but at different levels in various maize organs and at different stages of development. The cDNA encoding ZmCK2α-4 has three potential translation initiation sites. The three putative variants of ZmCK2α-4 were expressed in Escherichia coli as GST-fusion proteins and purified from bacterial extracts. In contrast to the previously characterized ZmCK2αs, the obtained GST:ZmCK2α-4 proteins were catalytically inactive as monomers or in the presence of equimolar amounts of the human CK2β. However, GST:ZmCK2α-4 did phosphorylate casein in the presence of a large excess of the β subunit. The activity of ZmCK2α-4 toward casein could also be stimulated by increasing ATP concentration. Modeling studies have shown that there is no interaction between the N-terminal segment of ZmCK2α-4 and the activation loop responsible for constitutive catalytic activity of CK2α. Preliminary results suggest that ZmCK2α-4 may function as a negative regulator of other CK2s, and at certain circumstances as a holoenzyme which catalytic activity is stimulated by specific regulatory subunit(s).
Physiologia Plantarum 06/2009; 136(3):251 - 263. · 3.11 Impact Factor
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ABSTRACT: A calcium- and phospholipid-dependent protein kinase of apparent molecular mass 54 kDa (designated ZmCPKp54) was partially purified from etiolated maize seedlings. Activity of ZmCPKp54 is stimulated by phosphatidylserine and phosphatidylinositol, but is not essentially affected by diolein and phorbol esters. The enzyme cross-reacts with polyclonal antibodies against the calmodulin like-domain of the calcium-dependent protein kinase, but not with antibodies against catalytic or regulatory domains of protein kinase C. ZmCPKp54 is not able to phosphorylate the specific substrates of protein kinase C (MARCKS peptide and protein kinase C substrate peptide derived from pseudosubstrate sequence) and its activity is not inhibited by specific PKC inhibitors (bisindolylmaleimide, protein kinase C pseudosubstrate inhibitory peptide). The substrate specificity and sensitivity to the inhibitors of the maize enzyme resembles calcium-dependent protein kinase. The biochemical and immunological properties indicate that ZmCPKp54 belongs to the calcium-dependent protein kinase family.
European Journal of Biochemistry. 05/2000; 267(12):3818 - 3827.
