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1.
Abstract: A putative consensus domain for binding of 14-3-3 proteins to the plasma membrane (PM) H+-ATPase was identified in the highly-conserved sequence RSR(p)SWSF [where (p)S is Ser776 of the maize isoform MHA2], localized in the cytosolic stretch connecting transmembrane segments 8 and 9. A 15 amino acid biotinylated phosphopeptide comprising this motif: i) bound a recombinant 14-3-3 protein, ii) inhibited fusicoccin-induced stimulation of the PM H+-ATPase activity both in PM isolated from germinating radish ( Raphanus sativus L.) seedlings and in ER isolated from Saccharomyces cerevisiae expressing AHA1 (an isoform of Arabidopsis thaliana PM H+-ATPase), and iii) inhibited fusicoccin binding to PM isolated from germinating radish seedlings. The corresponding non-phosphorylated peptide was inactive in all the performed assays. Together, these results suggest that the cytosolic strand connecting transmembrane segments 8 and 9 of the PM H+-ATPase is a 14-3-3 binding site which might cooperate with the C-terminal domain of the'enzyme in generating a stable association between the H+-ATPase and 14-3-3 protein.  相似文献   

2.
Interaction of 14-3-3 proteins with their targets depends not only on the phosphorylation status of the target but also on that of 14-3-3 (Fu et al., 2000). In this work we demonstrated that the maize 14-3-3 isoform GF14-6 is a substrate of the tyrosine kinase insulin growth factor receptor 1. By means of site-directed mutants of GF14-6, we identified Tyr-137 as the specific tyrosine residue phosphorylated by the insulin growth factor receptor 1. Phosphorylation of GF14-6 on Tyr-137 lowered its affinity for a peptide mimicking the 14-3-3 binding site of the plant plasma membrane H+-ATPase. Moreover, phosphorylation in planta of 14-3-3 tyrosine residues, resulting from incubation with the tyrosine phosphatase inhibitor, phenylarsine oxide, decreased their association to the H+-ATPase.  相似文献   

3.
The plant plasma-membrane H+-ATPase (EC 3.6.1.35) contains a C-terminal autoinhibitory domain whose displacement from the catalytic site is caused by treatment of intact plant tissue with the phytotoxin fusicoccin (FC). The FC-induced activation of the H+-ATPase was proposed to involve a direct interaction of 14-3-3 proteins with the H+-ATPase. By analysing plasma membranes derived from leaves of Commelina communis L., direct biochemical evidence has now been obtained for a complex between the C-terminus of the H+-ATPase and a 14-3-3 dimer. Stabilization of this complex was achieved by FC treatment in vivo or in vitro. Furthermore, the C-terminal domain of the H+-ATPase in association with a 14-3-3 dimer is essential for the creation of a functional FC-binding complex. Received: 1 August 1998 / Accepted: 15 September 1998  相似文献   

4.
 Taking the binding of fusicoccin to plasma membranes as an indicator of complex formation between the 14-3-3 dimer and H+-ATPase, we assessed the effect of osmotic stress on the interaction of these proteins in suspension-cultured cells of sugar beet (Beta vulgaris L.). An increase in osmolarity of the cell incubation medium, accompanied by a decrease in turgor, was found to activate the H+ efflux 5-fold. The same increment was observed in the number of high-affinity fusicoccin-binding sites in isolated plasma membranes; the 14-3-3 content in the membranes increased 2- to 3-fold, while the H+-ATPase activity changed only slightly. The data obtained indicate that osmotic regulation of H+-ATPase in the plant plasma membrane is achieved via modulation of the coupling between H+ transport and ATP hydrolysis, and that such regulation involves 14-3-3 proteins. Received: 10 February 2000 / Accepted: 31 March 2000  相似文献   

5.
The plasma membrane located fusicoccin binding protein (FCBP) is an essential element in the fusicoccin (FC) signal transduction pathway. We obtained primary sequence information for the 31 kD subunit of the FCBP. These sequences showed that the FCBP is homologous to members of the 14-3-3 protein family. Both the 31 and 30 kD subunits cross-react with 14-3-3 antibodies. In native form the FCBP occurs as a dimer, but it is also part of a complex with higher molecular mass. The monomeric forms of the FCBP (the 30 and 31 kD subunits) do not have 3H-FC binding activity. We discuss how the FCBP, as a member of the 14-3-3 protein family, may be able to bind FC and how the FC-signal is transduced to the effector protein, the H+-ATPase.  相似文献   

6.
Using the two-hybrid technique we identified a novel protein whose N-terminal 88 amino acids (aa) interact with the C-terminal regulatory domain of the plasma membrane (PM) H+-ATPase from Arabidopsis thaliana (aa 847-949 of isoform AHA1). The corresponding gene has been named Ppi1 for Proton pump interactor 1. The encoded protein is 612 aa long and rich in charged and polar residues, except for the extreme C-terminus, where it presents a hydrophobic stretch of 24 aa. Several genes in the A. thaliana genome and many ESTs from different plant species share significant similarity (50-70% at the aa level over stretches of 200-600 aa) to Ppi1. The PPI1 N-terminus, expressed in bacteria as a fusion protein with either GST or a His-tag, binds the PM H+-ATPase in overlay experiments. The same fusion proteins and the entire coding region fused to GST stimulate H+-ATPase activity. The effect of the His-tagged peptide is synergistic with that of fusicoccin (FC) and of tryptic removal of a C-terminal 10 kDa fragment. The His-tagged peptide binds also the trypsinised H+-ATPase. Altogether these results indicate that PPI1 N-terminus is able to modulate the PM H+-ATPase activity by binding to a site different from the 14-3-3 binding site and is located upstream of the trypsin cleavage site.  相似文献   

7.
14-3-3 protein regulation of proton pumps and ion channels   总被引:6,自引:0,他引:6  
In addition to their regulation of cytoplasmic enzymes, the 14-3-3 proteins are important regulators of membrane localised proteins. In particular, many of the cells' ion pumps and channels are either directly or indirectly modulated by 14-3-3 proteins. Binding of 14-3-3 can lead to the activation of pump activity as in the case of the plasma membrane H+-ATPase or inhibition as in the case of the F-type ATP synthase complexes. 14-3-3 binding can also lead to surprising results such as the recruitment of `sleepy' outward rectifiying K+ channels in tomato cells. Our present knowledge extends to an initial understanding of isoform-specific binding of 14-3-3 to certain membrane proteins and a perception of the protein kinases and phosphatases that maintain the regulatory process in a state of flux.  相似文献   

8.
Germination of seeds proceeds in general in two phases, an initial imbibition phase and a subsequent growth phase. In grasses like barley, the latter phase is evident as the emergence of the embryonic root (radicle). The hormone abscisic acid (ABA) inhibits germination because it prevents the embryo from entering and completing the growth phase. Genetic and physiological studies have identified many steps in the ABA signal transduction cascade, but how it prevents radicle elongation is still not clear. For elongation growth to proceed, uptake of osmotically active substances (mainly K(+)) is essential. Therefore, we have addressed the question of how the activity of K(+) permeable ion channels in the plasma membrane of radicle cells is regulated under conditions of slow (+ABA) and rapid germination (+fusicoccin). We found that ABA arrests radicle growth, inhibits net K(+) uptake and reduces the activity of K(+) (in) channels as measured with the patch-clamp technique. In contrast, fusicoccin (FC), a well-known stimulator of germination, stimulates radicle growth, net K(+) uptake and reduces the activity of K(+) (out) channels. Both types of channels are under the control of 14-3-3 proteins, known as integral components of signal transduction pathways and instrumental in FC action. Intriguingly, 14-3-3 affected both channels in an opposite fashion: whereas K(+) (in) channel activity was fully dependent upon 14-3-3 proteins, K(+) (out) channel activity was reduced by 14-3-3 proteins by 60%. Together with previous data showing that 14-3-3 proteins control the activity of the plasma membrane H(+)-ATPase, this makes 14-3-3 a prime candidate for molecular master regulator of the cellular osmo-pump. Regulation of the osmo-pump activity by ABA and FC is an important mechanism in controlling the growth of the embryonic root during seed germination.  相似文献   

9.
10.
The aqueous two-phase partitioning technique was utilized to isolate a plasma membrane (PM) fraction from etiolated seedlings of Arabidopsis thaliana. The purification procedure adopted yielded a fraction highly enriched in PM as compared to inner membranes, with a recovery of about 30%, as judged from the activities of PM markers such as vanadate-sensitive ATPase, FC binding and UDP-glucose sterol glucosyltransferase. The purified PM fraction displayed vanadate-sensitive H+ pumping activity. Its purity was confirmed by the biochemical characteristics of its ATPase activity assayed in the absence of Ca2+: sensitivity to vanadate (IC50 ca. 1 μM), Mg2+-dependence, insensitivity to molybdate, oligomycin and nitrate, pH optimum at 6.6. The PM H+-ATPase activity was stimulated by fusicoccin and by a controlled treatment of the PM with trypsin. In both cases stimulation was much stronger on the activity assayed at pH 7.5 than on the activity at pH 6.6. Moreover, neither fusicoccin nor the treatment with trypsin stimulated the portion of activity (30 to 40% at pH 7.5) which decayed upon preincubation of the PM in assay medium without ATP.  相似文献   

11.
14-3-3蛋白是高度保守并在真核生物中普遍存在的一类调节蛋白。不同的14-3-3蛋白同工型具有不同的细胞特异性, 并通过识别特异的磷酸化序列与靶蛋白相互作用, 被称为蛋白质与蛋白质相互作用的桥梁蛋白。在植物生长发育过程中, 14-3-3蛋白通过与其它蛋白的相互作用参与多种植物激素信号转导、各种代谢调控、物质运输和光信号应答等调控过程。该文主要对近年来有关14-3-3蛋白在植物生长发育中的调控作用, 特别是14-3-3蛋白参与调控植物激素信号转导等方面的研究进展进行综述。  相似文献   

12.
A polyclonal antibody was raised against a Toxoplasma gondii 14-3-3-gluthatione S-transferase fusion protein obtained by cloning a 14-3-3 cDNA sequence determined from the T. gondii database. This antibody specifically recognized T. gondii 14-3-3 without any cross-reaction with mammalian proteins. Immunofluorescence microscopy studies of the tachyzoites or the T. gondii-infected cells suggested cytosolic and membranous localizations of 14-3-3 protein. Different subcellular fractions were prepared for electrophoresis analysis and immunodetection. 14-3-3 proteins were found in the cytosol, the membrane fraction and Triton X-100-resistant membranes. Two 14-3-3 isoforms were detected. The major one was mainly cytoplasmic and to a lesser extent membrane-associated, whereas the minor isoform was associated with the detergent-resistant lipid rafts.  相似文献   

13.
14-3-3蛋白与植物细胞信号转导   总被引:2,自引:0,他引:2  
14-3-3蛋白通过直接蛋白质-蛋白质相互作用对植物代谢关键酶、质膜H^+ -ATP酶等发挥广泛调节作用。越来越多证据显示14-3-3蛋白通过与转录因子和其他信号分子结合参与调控植物细胞信号转导。对植物细胞中14-3-3蛋白调控信号转导途径,尤其是植物细胞对胁迫响应的调控机制进行了综述。  相似文献   

14.
5-2 is a mutant of Arabidopsis thaliana which is partially resistant to fusicoccin in vivo. We have analysed fusicoccin binding and the activity and amount of H+-ATPase in plasma membrane isolated from mature leaves of the wild type and of mutant 5-2. Fusicoccin binding was similar in plasma membrane from the two genotypes, while H+-ATPase activity was markedly (c. 50%) lower in plasma membrane from mutant 5-2 than in that from the wild type. The H+-ATPase of mutant 5-2 was activated by fusicoccin as much as that of the wild type. In plasma membrane from mutant 5-2, the amount of immunodetectable H+-ATPase, quantified by densitometry of Western blots, was about half that in the wild type. These results indicate that the major defect of mutant 5-2 detectable at the plasma membrane level is a reduction in the amount of H+-ATPase.  相似文献   

15.
Effect of mutations mimicking phosphorylation on the structure of human 14-3-3ζ protein was analyzed by different methods. Mutation S58E increased intrinsic Trp fluorescence and binding of bis-ANS to 14-3-3. At low protein concentration mutation S58E increased the probability of dissociation of dimeric 14-3-3 and its susceptibility to proteolysis. Mutation S184E slightly increased Stokes radius and thermal stability of 14-3-3. Mutation T232E induced only small increase of Stokes radius and sedimentation coefficient that probably reflect the changes in the size or shape of 14-3-3. At low protein concentration the triple mutant S58E/S184E/T232E tended to dissociate, whereas at high concentration its properties were comparable with those of the wild type protein. The triple mutant was highly susceptible to proteolysis. Thus, mutation mimicking phosphorylation of Ser58 destabilized, whereas mutation of Ser184 induced stabilization of 14-3-3ζ structure.  相似文献   

16.
植物中14-3-3蛋白的主要功能   总被引:1,自引:0,他引:1  
崔娜  李天来  李悦 《生物技术》2007,17(2):86-89
14-3-3蛋白家族广泛存在于真核生物中,序列高度保守。主要以同源或异源二聚体形式存在,可以同时与两个靶蛋白或者与一个靶蛋白的两个结构域相互作用,通过与靶蛋白上的一小段共有序列的磷酸化丝氨酸/苏氨酸残基结合来发挥其调控功能。本文综述了植物中的14-3-3蛋白及其主要功能,并重点综述了14-3-3蛋白对植物基本碳、氮代谢的调控。  相似文献   

17.
植物14-3-3蛋白研究进展   总被引:1,自引:0,他引:1  
14-3-3蛋白是真核生物中许多信号传导级联反应的主要调节分子,易于与具有磷酸化的丝氨酸和苏氨酸残基的靶蛋白互作进而调节碳氮代谢、三羧酸循环、莽草酸合成等多种生理过程中的多种酶活性。该文根据近年来国内外对14-3-3蛋白的研究进展,对植物中14-3-3蛋白的发现、基因鉴定、结构和功能以及14-3-3蛋白与其靶蛋白的互作机制进行综述,并对14-3-3蛋白的研究提出了进一步的展望。  相似文献   

18.
14-3-3 Proteins are found to bind to a growing number of eukaryotic proteins and evidence is accumulating that 14-3-3 proteins serve as modulators of enzyme activity. Several 14-3-3 protein recognition motifs have been identified and an increasing number of target proteins have been found to contain more than one binding site for a 14-3-3 protein. It is thus possible that 14-3-3 dimers function as clamps that simultaneously bind to two motifs within a single binding partner. Phosphorylation of a number of binding motifs has been shown to increase the affinity for 14-3-3 proteins but other mechanisms also regulate the association. It has recently been demonstrated that fusicoccin induces a tight association between 14-3-3 proteins and the plant plasma membrane H+-ATPase. Phorbol esters and other hydrophobic molecules may have a similar effect on the association between 14-3-3 proteins and specific binding partners.  相似文献   

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