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1
PHALIP, Vincent, Jian-Hong LI i Cheng-Cai ZHANG. "HstK, a cyanobacterial protein with both a serine/threonine kinase domain and a histidine kinase domain: implication for the mechanism of signal transduction". Biochemical Journal 360, nr 3 (10.12.2001): 639–44. http://dx.doi.org/10.1042/bj3600639.
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Two distinct families of protein kinases are involved in signal transduction: Ser, Thr and Tyr kinases, which are predominantly found among eukaryotes, and His kinases, as part of bacterial two-component signalling systems. Genetic studies in Arabidopsis and Saccharomyces have demonstrated that bacterial-type two-component systems may act upstream of Ser/Thr kinases in the same signalling pathway, but how this coupling is accomplished remains unclear. In the present study, we report the characterization of a protein kinase, HstK, from the N2-fixing cyanobacterium Anabaena sp. PCC 7120, that possesses both a Ser/Thr kinase domain and a His kinase domain. Proteins with a structural architecture similar to that of HstK can be found in the eukaryote, Schizosaccharomyces pombe, and the bacterium, Rhodococcus sp. M5. HstK was present in cells grown with NH4+ or N2 as the nitrogen source, but was absent in cells grown with NO3−. The hstK gene was inactivated and the mutant phenotype was characterized. The catalytic domain of the Ser/Thr kinase of HstK functionally replaced that of Hog1p, a well-characterized protein kinase required for the response to high osmolarity in the S. cerevisiae heterologous system. The unusual multidomain structure of HstK suggests that a two-component system could be directly coupled to Ser/Thr kinases in the same signal transduction pathway.
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Mizunuma, Masataka, Atsushi Kaneko, Shunta Imai, Kazuhiro Furukawa i Yoshiro Chuman. "Methods for Identification of Substrates/Inhibitors of FCP/SCP Type Protein Ser/Thr Phosphatases". Processes 8, nr 12 (4.12.2020): 1598. http://dx.doi.org/10.3390/pr8121598.
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Protein phosphorylation is the most widespread type of post-translational modification and is properly controlled by protein kinases and phosphatases. Regarding the phosphorylation of serine (Ser) and threonine (Thr) residues, relatively few protein Ser/Thr phosphatases control the specific dephosphorylation of numerous substrates, in contrast with Ser/Thr kinases. Recently, protein Ser/Thr phosphatases were reported to have rigid substrate recognition and exert various biological functions. Therefore, identification of targeted proteins by individual protein Ser/Thr phosphatases is crucial to clarify their own biological functions. However, to date, information on the development of methods for identification of the substrates of protein Ser/Thr phosphatases remains scarce. In turn, substrate-trapping mutants are powerful tools to search the individual substrates of protein tyrosine (Tyr) phosphatases. This review focuses on the development of novel methods for the identification of Ser/Thr phosphatases, especially small C-terminal domain phosphatase 1 (Scp1), using peptide-displayed phage library with AlF4−/BeF3−, and discusses the identification of putative inhibitors.
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Songyang, Z., K. P. Lu, Y. T. Kwon, L. H. Tsai, O. Filhol, C. Cochet, D. A. Brickey i in. "A structural basis for substrate specificities of protein Ser/Thr kinases: primary sequence preference of casein kinases I and II, NIMA, phosphorylase kinase, calmodulin-dependent kinase II, CDK5, and Erk1." Molecular and Cellular Biology 16, nr 11 (listopad 1996): 6486–93. http://dx.doi.org/10.1128/mcb.16.11.6486.
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We have developed a method to study the primary sequence specificities of protein kinases by using an oriented degenerate peptide library. We report here the substrate specificities of eight protein Ser/Thr kinases. All of the kinases studied selected distinct optimal substrates. The identified substrate specificities of these kinases, together with known crystal structures of protein kinase A, CDK2, Erk2, twitchin, and casein kinase I, provide a structural basis for the substrate recognition of protein Ser/Thr kinases. In particular, the specific selection of amino acids at the +1 and -3 positions to the substrate serine/threonine can be rationalized on the basis of sequences of protein kinases. The identification of optimal peptide substrates of CDK5, casein kinases I and II, NIMA, calmodulin-dependent kinases, Erk1, and phosphorylase kinase makes it possible to predict the potential in vivo targets of these kinases.
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Seok, Seung-Hyeon. "Structural Insights into Protein Regulation by Phosphorylation and Substrate Recognition of Protein Kinases/Phosphatases". Life 11, nr 9 (13.09.2021): 957. http://dx.doi.org/10.3390/life11090957.
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Protein phosphorylation is one of the most widely observed and important post-translational modification (PTM) processes. Protein phosphorylation is regulated by protein kinases, each of which covalently attaches a phosphate group to an amino acid side chain on a serine (Ser), threonine (Thr), or tyrosine (Tyr) residue of a protein, and by protein phosphatases, each of which, conversely, removes a phosphate group from a phosphoprotein. These reversible enzyme activities provide a regulatory mechanism by activating or deactivating many diverse functions of proteins in various cellular processes. In this review, their structures and substrate recognition are described and summarized, focusing on Ser/Thr protein kinases and protein Ser/Thr phosphatases, and the regulation of protein structures by phosphorylation. The studies reviewed here and the resulting information could contribute to further structural, biochemical, and combined studies on the mechanisms of protein phosphorylation and to drug discovery approaches targeting protein kinases or protein phosphatases.
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Blume, Constanze, Peter M. Benz, Ulrich Walter, Joohun Ha, Bruce E. Kemp i Thomas Renné. "AMP-activated Protein Kinase Impairs Endothelial Actin Cytoskeleton Assembly by Phosphorylating Vasodilator-stimulated Phosphoprotein". Journal of Biological Chemistry 282, nr 7 (2.11.2006): 4601–12. http://dx.doi.org/10.1074/jbc.m608866200.
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Vasodilator-stimulated phosphoprotein (VASP) is an actin regulatory protein that links signaling pathways to remodeling of the cytoskeleton. VASP functions are modulated by protein kinases, which phosphorylate the sites Ser-157, Ser-239, and Thr-278. The kinase responsible for Thr-278 phosphorylation, biological functions of the phosphorylation, and association with disease states have remained enigmatic. Using VASP phosphorylation status-specific antibodies, we identified AMP-activated protein kinase (AMPK), a serine-threonine kinase and fundamental sensor of energy homeostasis, in a screen for kinases that phosphorylate the Thr-278 site of VASP in endothelial cells. Pharmacological AMPK inhibitors and activators and AMPK mutants revealed that the kinase specifically targets residue Thr-278 but not Ser-157 or Ser-239. Quantitative fluorescence-activated cell sorter analysis and serum response factor transcriptional reporter assays, which quantify the cellular F-/G-actin equilibrium, indicated that AMPK-mediated VASP phosphorylation impaired actin stress fiber formation and altered cell morphology. In the Zucker Diabetic Fatty (ZDF) rat model for type II diabetes, AMPK activity and Thr-278 phosphorylation were substantially reduced in arterial vessel walls. These findings suggest that VASP is a new AMPK substrate, that VASP Thr-278 phosphorylation translates metabolic signals into actin cytoskeleton rearrangements, and that this signaling system becomes down-regulated in diabetic vessels.
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Prasad, Jayendra, i James L. Manley. "Regulation and Substrate Specificity of the SR Protein Kinase Clk/Sty". Molecular and Cellular Biology 23, nr 12 (15.06.2003): 4139–49. http://dx.doi.org/10.1128/mcb.23.12.4139-4149.2003.
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ABSTRACT SR proteins constitute a family of splicing factors that play key roles in both constitutive and regulated splicing in metazoan organisms. The proteins are extensively phosphorylated, and kinases capable of phosphorylating them have been identified. However, little is known about how these kinases function, for example, whether they target specific SR proteins or whether the kinases themselves are regulated. Here we describe properties of one such kinase, Clk/Sty, the founding member of the Clk/Sty family of dual-specificity kinases. Clk/Sty is autophosphorylated on both Ser/Thr and Thr residues, and using both direct kinase assays and SR protein-dependent splicing assays, we have analyzed the effects of each type of modification. We find not only that the pattern of phosphorylation on a specific SR protein substrate, ASF/SF2, is modulated by autophosphorylation but also that the ability of Clk/Sty to recognize different SR proteins is influenced by the extent and nature of autophosphorylation. Strikingly, phosphorylation of ASF/SF2 is sensitive to changes in Tyr, but not Ser/Thr, autophosphorylation while that of SC35 displays the opposite pattern. In contrast, phosphorylation of a third SR protein, SRp40, is unaffected by autophosphorylation. We also present biochemical data indicating that as expected for a factor directly involved in splicing control (but in contrast to recent reports), Clk/Sty is found in the nucleus of several different cell types.
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THELEN, Jay J., Jan A. MIERNYK i Douglas D. RANDALL. "Pyruvate dehydrogenase kinase from Arabidopsis thaliana: a protein histidine kinase that phosphorylates serine residues". Biochemical Journal 349, nr 1 (26.06.2000): 195–201. http://dx.doi.org/10.1042/bj3490195.
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Pyruvate dehydrogenase kinase (PDK) is the primary regulator of flux through the mitochondrial pyruvate dehydrogenase complex (PDC). Although PDKs inactivate mitochondrial PDC by phosphorylating specific Ser residues, the primary amino acid sequence indicates that they are more closely related to prokaryotic His kinases than to eukaryotic Ser/Thr kinases. Unlike Ser/Thr kinases, His kinases use a conserved His residue for phosphotransfer to Asp residues. To understand these unique kinases better, a presumptive PDK from Arabidopsis thaliana was heterologously expressed and purified for this investigation. Purified, recombinant A. thaliana PDK could inactivate kinase-depleted maize mitochondrial PDC by phosphorylating Ser residues. Additionally, A. thaliana PDK was capable of autophosphorylating Ser residues near its N-terminus, although this reaction is not part of the phosphotransfer pathway. To elucidate the mechanism involved, we performed site-directed mutagenesis of the canonical His residue likely to be involved in phosphotransfer. When His-121 was mutated to Ala or Gln, Ser-autophosphorylation was decreased by 50% and transphosphorylation of PDC was decreased concomitantly. We postulate that either (1) His-121 is not the sole phosphotransfer His residue or (2) mutagenesis of His-121 exposes an additional otherwise cryptic phosphotransfer His residue. Thus His-121 is one residue involved in kinase function.
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Gangwal, Aakriti, Nitika Sangwan, Neha Dhasmana, Nishant Kumar, Chetkar Chandra Keshavam, Lalit K. Singh, Ankur Bothra i in. "Role of serine/threonine protein phosphatase PrpN in the life cycle of Bacillus anthracis". PLOS Pathogens 18, nr 8 (1.08.2022): e1010729. http://dx.doi.org/10.1371/journal.ppat.1010729.
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Reversible protein phosphorylation at serine/threonine residues is one of the most common protein modifications, widely observed in all kingdoms of life. The catalysts controlling this modification are specific serine/threonine kinases and phosphatases that modulate various cellular pathways ranging from growth to cellular death. Genome sequencing and various omics studies have led to the identification of numerous serine/threonine kinases and cognate phosphatases, yet the physiological relevance of many of these proteins remain enigmatic. In Bacillus anthracis, only one ser/thr phosphatase, PrpC, has been functionally characterized; it was reported to be non-essential for bacterial growth and survival. In the present study, we characterized another ser/thr phosphatase (PrpN) of B. anthracis by various structural and functional approaches. To examine its physiological relevance in B. anthracis, a null mutant strain of prpN was generated and shown to have defects in sporulation and reduced synthesis of toxins (PA and LF) and the toxin activator protein AtxA. We also identified CodY, a global transcriptional regulator, as a target of PrpN and ser/thr kinase PrkC. CodY phosphorylation strongly controlled its binding to the promoter region of atxA, as shown using phosphomimetic and phosphoablative mutants. In nutshell, the present study reports phosphorylation-mediated regulation of CodY activity in the context of anthrax toxin synthesis in B. anthracis by a previously uncharacterized ser/thr protein phosphatase–PrpN.
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Byrne, Dominic P., Safal Shrestha, Martin Galler, Min Cao, Leonard A. Daly, Amy E. Campbell, Claire E. Eyers, Elizabeth A. Veal, Natarajan Kannan i Patrick A. Eyers. "Aurora A regulation by reversible cysteine oxidation reveals evolutionarily conserved redox control of Ser/Thr protein kinase activity". Science Signaling 13, nr 639 (7.07.2020): eaax2713. http://dx.doi.org/10.1126/scisignal.aax2713.
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Reactive oxygen species (ROS) are physiological mediators of cellular signaling and play potentially damaging roles in human diseases. In this study, we found that the catalytic activity of the Ser/Thr kinase Aurora A was inhibited by the oxidation of a conserved cysteine residue (Cys290) that lies adjacent to Thr288, a critical phosphorylation site in the activation segment. Cys is present at the equivalent position in ~100 human Ser/Thr kinases, a residue that we found was important not only for the activity of human Aurora A but also for that of fission yeast MAPK-activated kinase (Srk1) and PKA (Pka1). Moreover, the presence of this conserved Cys predicted biochemical redox sensitivity among a cohort of human CAMK, AGC, and AGC-like kinases. Thus, we predict that redox modulation of the conserved Cys290 of Aurora A may be an underappreciated regulatory mechanism that is widespread in eukaryotic Ser/Thr kinases. Given the key biological roles of these enzymes, these findings have implications for understanding physiological and pathological responses to ROS and highlight the importance of protein kinase regulation through multivalent modification of the activation segment.
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Lutterbach, B., i S. R. Hann. "Hierarchical phosphorylation at N-terminal transformation-sensitive sites in c-Myc protein is regulated by mitogens and in mitosis". Molecular and Cellular Biology 14, nr 8 (sierpień 1994): 5510–22. http://dx.doi.org/10.1128/mcb.14.8.5510-5522.1994.
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The N-terminal domain of the c-Myc protein has been reported to be critical for both the transactivation and biological functions of the c-Myc proteins. Through detailed phosphopeptide mapping analyses, we demonstrate that there is a cluster of four regulated and complex phosphorylation events on the N-terminal domain of Myc proteins, including Thr-58, Ser-62, and Ser-71. An apparent enhancement of Ser-62 phosphorylation occurs on v-Myc proteins having a mutation at Thr-58 which has previously been correlated with increased transforming ability. In contrast, phosphorylation of Thr-58 in cells is dependent on a prior phosphorylation of Ser-62. Hierarchical phosphorylation of c-Myc is also observed in vitro with a specific glycogen synthase kinase 3 alpha, unlike the promiscuous phosphorylation observed with other glycogen synthase kinase 3 alpha and 3 beta preparations. Although both p42 mitogen-activated protein kinase and cdc2 kinase specifically phosphorylate Ser-62 in vitro and cellular phosphorylation of Thr-58/Ser-62 is stimulated by mitogens, other in vivo experiments do not support a role for these kinases in the phosphorylation of Myc proteins. Unexpectedly, both the Thr-58 and Ser-62 phosphorylation events, but not other N-terminal phosphorylation events, can occur in the cytoplasm, suggesting that translocation of the c-Myc proteins to the nucleus is not required for phosphorylation at these sites. In addition, there appears to be an unusual block to the phosphorylation of Ser-62 during mitosis. Finally, although the enhanced transforming properties of Myc proteins correlates with the loss of phosphorylation at Thr-58 and an enhancement of Ser-62 phosphorylation, these phosphorylation events do not alter the ability of c-Myc to transactivate through the CACGTG Myc/Max binding site.
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Lutterbach, B., i S. R. Hann. "Hierarchical phosphorylation at N-terminal transformation-sensitive sites in c-Myc protein is regulated by mitogens and in mitosis." Molecular and Cellular Biology 14, nr 8 (sierpień 1994): 5510–22. http://dx.doi.org/10.1128/mcb.14.8.5510.
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The N-terminal domain of the c-Myc protein has been reported to be critical for both the transactivation and biological functions of the c-Myc proteins. Through detailed phosphopeptide mapping analyses, we demonstrate that there is a cluster of four regulated and complex phosphorylation events on the N-terminal domain of Myc proteins, including Thr-58, Ser-62, and Ser-71. An apparent enhancement of Ser-62 phosphorylation occurs on v-Myc proteins having a mutation at Thr-58 which has previously been correlated with increased transforming ability. In contrast, phosphorylation of Thr-58 in cells is dependent on a prior phosphorylation of Ser-62. Hierarchical phosphorylation of c-Myc is also observed in vitro with a specific glycogen synthase kinase 3 alpha, unlike the promiscuous phosphorylation observed with other glycogen synthase kinase 3 alpha and 3 beta preparations. Although both p42 mitogen-activated protein kinase and cdc2 kinase specifically phosphorylate Ser-62 in vitro and cellular phosphorylation of Thr-58/Ser-62 is stimulated by mitogens, other in vivo experiments do not support a role for these kinases in the phosphorylation of Myc proteins. Unexpectedly, both the Thr-58 and Ser-62 phosphorylation events, but not other N-terminal phosphorylation events, can occur in the cytoplasm, suggesting that translocation of the c-Myc proteins to the nucleus is not required for phosphorylation at these sites. In addition, there appears to be an unusual block to the phosphorylation of Ser-62 during mitosis. Finally, although the enhanced transforming properties of Myc proteins correlates with the loss of phosphorylation at Thr-58 and an enhancement of Ser-62 phosphorylation, these phosphorylation events do not alter the ability of c-Myc to transactivate through the CACGTG Myc/Max binding site.
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BIONDI, Ricardo M., i Angel R. NEBREDA. "Signalling specificity of Ser/Thr protein kinases through docking-site-mediated interactions". Biochemical Journal 372, nr 1 (15.05.2003): 1–13. http://dx.doi.org/10.1042/bj20021641.
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Signal transduction pathways use protein kinases for the modification of protein function by phosphorylation. A major question in the field is how protein kinases achieve the specificity required to regulate multiple cellular functions. Here we review recent studies that illuminate the mechanisms used by three families of Ser/Thr protein kinases to achieve substrate specificity. These kinases rely on direct docking interactions with substrates, using sites distinct from the phospho-acceptor sequences. Docking interactions also contribute to the specificity and regulation of protein kinase activities. Mitogen-activated protein kinase (MAPK) family members can associate with and phosphorylate specific substrates by virtue of minor variations in their docking sequences. Interestingly, the same MAPK docking pocket that binds substrates also binds docking sequences of positive and negative MAPK regulators. In the case of glycogen synthase kinase 3 (GSK3), the presence of a phosphate-binding site allows docking of previously phosphorylated (primed) substrates; this docking site is also required for the mechanism of GSK3 inhibition by phosphorylation. In contrast, non-primed substrates interact with a different region of GSK3. Phosphoinositide-dependent protein kinase-1 (PDK1) contains a hydrophobic pocket that interacts with a hydrophobic motif present in all known substrates, enabling their efficient phosphorylation. Binding of the substrate hydrophobic motifs to the pocket in the kinase domain activates PDK1 and other members of the AGC family of protein kinases. Finally, the analysis of protein kinase structures indicates that the sites used for docking substrates can also bind N- and C-terminal extensions to the kinase catalytic core and participate in the regulation of its activity.
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Baros, Seanantha S., Jonathan M. Blackburn i Nelson C. Soares. "Phosphoproteomic Approaches to Discover Novel Substrates of Mycobacterial Ser/Thr Protein Kinases". Molecular & Cellular Proteomics 19, nr 2 (15.12.2019): 233–44. http://dx.doi.org/10.1074/mcp.r119.001668.
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Mycobacterial Ser/Thr protein kinases (STPKs) play a critical role in signal transduction pathways that ultimately determine mycobacterial growth and metabolic adaptation. Identification of key physiological substrates of these protein kinases is, therefore, crucial to better understand how Ser/Thr phosphorylation contributes to mycobacterial environmental adaptation, including response to stress, cell division, and host-pathogen interactions. Various substrate detection methods have been employed with limited success, with direct targets of STPKs remaining elusive. Recently developed mass spectrometry (MS)-based phosphoproteomic approaches have expanded the list of potential STPK substrate identifications, yet further investigation is required to define the most functionally significant phosphosites and their physiological importance. Prior to the application of MS workflows, for instance, GarA was the only known and validated physiological substrate for protein kinase G (PknG) from pathogenic mycobacteria. A subsequent list of at least 28 candidate PknG substrates has since been reported with the use of MS-based analyses. Herein, we integrate and critically review MS-generated datasets available on novel STPK substrates and report new functional and subcellular localization enrichment analyses on novel candidate protein kinase A (PknA), protein kinase B (PknB) and PknG substrates to deduce the possible physiological roles of these kinases. In addition, we assess substrate specificity patterns across different mycobacterial STPKs by analyzing reported sets of phosphopeptides, in order to determine whether novel motifs or consensus regions exist for mycobacterial Ser/Thr phosphorylation sites. This review focuses on MS-based techniques employed for STPK substrate identification in mycobacteria, while highlighting the advantages and challenges of the various applications.
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Salvi, Mauro, Luca Cesaro i Lorenzo A. Pinna. "Variable contribution of protein kinases to the generation of the human phosphoproteome: a global weblogo analysis". BioMolecular Concepts 1, nr 2 (1.08.2010): 185–95. http://dx.doi.org/10.1515/bmc.2010.013.
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AbstractIn an attempt to evaluate the contribution of individual protein kinases to the generation of the human phosphoproteome, we performed a global weblogo analysis exploiting a database of 45641 phosphosites (80% pSer, 11% pTyr, 9% pThr). The outcome of this analysis was then interpreted by comparison with similar logos constructed from bona fide phospoacceptor sites of individual pleiotropic kinases. The main conclusions that were drawn are as follows: (i) the hallmarks surrounding phosphorylated Ser/Thr residues are more pronounced than and sharply different from those found around phosphorylated Tyr, which is consistent with the view that local consensus sequences are particularly important for substrate recognition by Ser/Thr protein kinases. (ii) Only six residues are positively selected around phosphorylated Ser/Thr residues, notably Pro (particularly at n+1), Glu, and to a lesser extent Asp, at various positions with special reference to n+3, Arg (and to a much lesser extent Lys), particularly at n-3 and n-5, and Ser, at various positions, particularly n+4 and n-4. (iii) This composite signature reflects the contribution of kinases whose bona fide substrates exhibit logos partially overlapping that of the whole phosphoproteome. These are Pro-directed kinases belonging to the CMGC group, some basophilic kinases belonging to the ACG and CAMK groups, phosphate-directed kinases such as GSK3 and members of the CK1 group and the individual highly acidophilic CK2. Collectively taken our data support the concept that a relatively small number of highly pleiotropic kinases contribute to the generation of the great majority of the human Ser/Thr phosphoproteome.
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Wang, Junjun, Xinmiao Ji, Juanjuan Liu i Xin Zhang. "Serine/Threonine Protein Kinase STK16". International Journal of Molecular Sciences 20, nr 7 (10.04.2019): 1760. http://dx.doi.org/10.3390/ijms20071760.
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STK16 (Ser/Thr kinase 16, also known as Krct/PKL12/MPSK1/TSF-1) is a myristoylated and palmitoylated Ser/Thr protein kinase that is ubiquitously expressed and conserved among all eukaryotes. STK16 is distantly related to the other kinases and belongs to the NAK kinase family that has an atypical activation loop architecture. As a membrane-associated protein that is primarily localized to the Golgi, STK16 has been shown to participate in the TGF-β signaling pathway, TGN protein secretion and sorting, as well as cell cycle and Golgi assembly regulation. This review aims to provide a comprehensive summary of the progress made in recent research about STK16, ranging from its distribution, molecular characterization, post-translational modification (fatty acylation and phosphorylation), interactors (GlcNAcK/DRG1/MAL2/Actin/WDR1), and related functions. As a relatively underexplored kinase, more studies are encouraged to unravel its regulation mechanisms and cellular functions.
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BAJPAI, Anil, i Zacharie BRAHMI. "Regulation of natural killer cell-mediated cytotoxicity by serine/threonine phosphatases: identification of a calyculin A-sensitive serine/threonine kinase". Biochemical Journal 320, nr 1 (15.11.1996): 153–59. http://dx.doi.org/10.1042/bj3200153.
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We have recently reported that Ser/Thr phosphatases play a key role in regulating natural killer (NK) cell lytic activity and that calyculin A and okadaic acid affect this activity differently [Bajpai and Brahmi (1994) J. Biol. Chem. 269, 18864–18869]. Here, we investigate a mechanism that might account for this differential action of calyculin A and okadaic acid on NK cells. Calyculin A specifically inhibited the lytic activity of YT-INDY, an NK-like cell line, and hyperphosphorylated 60 and 78 kDa proteins. The kinetics of appearance of these two proteins was correlated with the loss of lytic activity. In contrast, okadaic acid did not significantly affect either of these activities. The 78 kDa protein is localized in the cytosolic compartment whereas the 60 kDa protein is distributed equally between the membrane and the cytosolic fractions. Both proteins display a kinase activity and are phosphorylated mainly at serine and threonine residues but not at tyrosine residues. The activation of these kinases is specific to calyculin A treatment; it is independent of protein kinase C, protein kinase A, Ca2+, phosphotyrosine phosphatase and protein synthesis de novo. In conclusion, we have demonstrated that calyculin A, but not okadaic acid, hyperphosphorylates two proteins with Ser/Thr kinase activity, thus explaining the differential regulation of NK cells by these two Ser/Thr phosphatase inhibitors.
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FLEMING, Yvonne, Christopher G. ARMSTRONG, Nick MORRICE, Andrew PATERSON, Michel GOEDERT i Philip COHEN. "Synergistic activation of stress-activated protein kinase 1/c-Jun N-terminal kinase (SAPK1/JNK) isoforms by mitogen-activated protein kinase kinase 4 (MKK4) and MKK7". Biochemical Journal 352, nr 1 (7.11.2000): 145–54. http://dx.doi.org/10.1042/bj3520145.
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Stress-activated protein kinase 1 (SAPK1), also called c-Jun N-terminal kinase (JNK), becomes activated in vivo in response to pro-inflammatory cytokines or cellular stresses. Its full activation requires the phosphorylation of a threonine and a tyrosine residue in a Thr-Pro-Tyr motif, which can be catalysed by the protein kinases mitogen-activated protein kinase kinase (MKK)4 and MKK7. Here we report that MKK4 shows a striking preference for the tyrosine residue (Tyr-185), and MKK7 a striking preference for the threonine residue (Thr-183) in three SAPK1/JNK1 isoforms tested (JNK1α1, JNK2α2 and JNK3α1). For this reason, MKK4 and MKK7 together produce a synergistic increase in the activity of each SAPK1/JNK isoform in vitro. The MKK7β variant, which is several hundred-fold more efficient in activating all three SAPK1/JNK isoforms than is MKK7α´, is equally specific for Thr-183. MKK7 also phosphorylates JNK2α2 at Thr-404 and Ser-407 in vitro, Ser-407 being phosphorylated much more rapidly than Thr-183 in vitro. Thr-404/Ser-407 are phosphorylated in unstimulated human KB cells and HEK-293 cells, and phosphorylation is increased in response to an osmotic stress (0.5M sorbitol). However, in contrast with Thr-183 and Tyr-185, the phosphorylation of Thr-404 and Ser-407 is not increased in response to other agonists that activate MKK7 and SAPK1/JNK, suggesting that phosphorylation of these residues is catalysed by another protein kinase, such as CK2, which also phosphorylates Thr-404 and Ser-407 in vitro. MKK3, MKK4 and MKK6 all show a strong preference for phosphorylation of the tyrosine residue of the Thr-Gly-Tyr motifs in their known substrates SAPK2a/p38, SAPK3/p38γ and SAPK4/p38δ. MKK7 also phosphorylates SAPK2a/p38 at a low rate (but not SAPK3/p38γ or SAPK4/p38δ), and phosphorylation occurs exclusively at the tyrosine residue, demonstrating that MKK7 is intrinsically a ‘dual-specific’ protein kinase.
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Rezaei Adariani, Soheila, Marcel Buchholzer, Mohammad Akbarzadeh, Saeideh Nakhaei-Rad, Radovan Dvorsky i Mohammad Reza Ahmadian. "Structural snapshots of RAF kinase interactions". Biochemical Society Transactions 46, nr 6 (31.10.2018): 1393–406. http://dx.doi.org/10.1042/bst20170528.
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RAF (rapidly accelerated fibrosarcoma) Ser/Thr kinases (ARAF, BRAF, and CRAF) link the RAS (rat sarcoma) protein family with the MAPK (mitogen-activated protein kinase) pathway and control cell growth, differentiation, development, aging, and tumorigenesis. Their activity is specifically modulated by protein–protein interactions, post-translational modifications, and conformational changes in specific spatiotemporal patterns via various upstream regulators, including the kinases, phosphatase, GTPases, and scaffold and modulator proteins. Dephosphorylation of Ser-259 (CRAF numbering) and dissociation of 14-3-3 release the RAF regulatory domains RAS-binding domain and cysteine-rich domain for interaction with RAS-GTP and membrane lipids. This, in turn, results in RAF phosphorylation at Ser-621 and 14-3-3 reassociation, followed by its dimerization and ultimately substrate binding and phosphorylation. This review focuses on structural understanding of how distinct binding partners trigger a cascade of molecular events that induces RAF kinase activation.
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JENKINS, Scott M., Marcus ZINNERMAN, Craig GARNER i Gail V. W. JOHNSON. "Modulation of tau phosphorylation and intracellular localization by cellular stress". Biochemical Journal 345, nr 2 (10.01.2000): 263–70. http://dx.doi.org/10.1042/bj3450263.
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Tau is a microtubule-associated protein that is functionally modulated by phosphorylation and hyperphosphorylated in several neurodegenerative diseases. Because phosphorylation regulates both normal and pathological tau functioning, it is of great interest to identify the signalling pathways and enzymes capable of modulating tau phosphorylation in vivo. The present study examined changes in tau phosphorylation and localization in response to osmotic stress, which activates the stress-activated protein kinases (SAPKs), a family of proline-directed protein kinases shown to phosphorylate tau in vitro and hypothesized to phosphorylate tau in Alzheimer's disease. Immunoblot analysis with phosphorylation-dependent antibodies revealed that osmotic stress increased tau phosphorylation at the non-Ser/Thr-Pro sites Ser-262/356, within the microtubule-binding domain, as well as Ser/Thr-Pro sites outside of tau's microtubule-binding domain. Although all SAPKs examined were activated by osmotic stress, none of the endogenous SAPKs mediated the increase in tau phosphorylation. However, when transfected into SH-SY5Y cells, SAPK3, but not the other SAPKs examined, phosphorylated tau in situ in response to activation by osmotic stress. Osmotic-stress-induced tau phosphorylation correlated with a decrease in the amount of tau associated with the cytoskeleton and an increase in the amount of soluble tau. This stress-induced alteration in tau localization was only partially due to phosphorylation at Ser-262/356 by a staurosporine-sensitive, non-proline-directed, protein kinase. Taken together, these results suggest that osmotic stress activates at least two tau-directed protein kinases, one proline-directed and one non-proline-directed, that SAPK3 can phosphorylate tau on Ser/Thr-Pro residues in situ, and that Ser-262/356 phosphorylation only partially regulates tau localization in the cell.
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Knape, Matthias J., Maximilian Wallbott, Nicole C. G. Burghardt, Daniela Bertinetti, Jan Hornung, Sven H. Schmidt, Robin Lorenz i Friedrich W. Herberg. "Molecular Basis for Ser/Thr Specificity in PKA Signaling". Cells 9, nr 6 (25.06.2020): 1548. http://dx.doi.org/10.3390/cells9061548.
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cAMP-dependent protein kinase (PKA) is the major receptor of the second messenger cAMP and a prototype for Ser/Thr-specific protein kinases. Although PKA strongly prefers serine over threonine substrates, little is known about the molecular basis of this substrate specificity. We employ classical enzyme kinetics and a surface plasmon resonance (SPR)-based method to analyze each step of the kinase reaction. In the absence of divalent metal ions and nucleotides, PKA binds serine (PKS) and threonine (PKT) substrates, derived from the heat-stable protein kinase inhibitor (PKI), with similar affinities. However, in the presence of metal ions and adenine nucleotides, the Michaelis complex for PKT is unstable. PKA phosphorylates PKT with a higher turnover due to a faster dissociation of the product complex. Thus, threonine substrates are not necessarily poor substrates of PKA. Mutation of the DFG+1 phenylalanine to β-branched amino acids increases the catalytic efficiency of PKA for a threonine peptide substrate up to 200-fold. The PKA Cα mutant F187V forms a stable Michaelis complex with PKT and shows no preference for serine versus threonine substrates. Disease-associated mutations of the DFG+1 position in other protein kinases underline the importance of substrate specificity for keeping signaling pathways segregated and precisely regulated.
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Claywell, Ja E., i Derek J. Fisher. "CTL0511 from Chlamydia trachomatis Is a Type 2C Protein Phosphatase with Broad Substrate Specificity". Journal of Bacteriology 198, nr 13 (25.04.2016): 1827–36. http://dx.doi.org/10.1128/jb.00025-16.
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ABSTRACTProtein phosphorylation has become increasingly recognized for its role in regulating bacterial physiology and virulence.Chlamydiaspp. encode two validated Hanks'-type Ser/Thr protein kinases, which typically function with cognate protein phosphatases and appear capable of global protein phosphorylation. Consequently, we sought to identify a Ser/Thr protein phosphatase partner for the chlamydial kinases. CTL0511 fromChlamydia trachomatisL2 434/Bu, which has homologs in all sequencedChlamydiaspp., is a predicted type 2C Ser/Thr protein phosphatase (PP2C). Recombinant maltose-binding protein (MBP)-tagged CTL0511 (rCTL0511) hydrolyzedp-nitrophenyl phosphate (pNPP), a generic phosphatase substrate, in a MnCl2-dependent manner at physiological pH. Assays using phosphopeptide substrates revealed that rCTL0511 can dephosphorylate phosphorylated serine (P-Ser), P-Thr, and P-Tyr residues using either MnCl2or MgCl2, indicating that metal usage can alter substrate preference. Phosphatase activity was unaffected by PP1, PP2A, and PP3 phosphatase inhibitors, while mutation of conserved PP2C residues significantly inhibited activity. Finally, phosphatase activity was detected in elementary body (EB) and reticulate body (RB) lysates, supporting a role for protein dephosphorylation in chlamydial development. These findings support that CTL0511 is a metal-dependent protein phosphatase with broad substrate specificity, substantiating a reversible phosphorylation network inC. trachomatis.IMPORTANCEChlamydiaspp. are obligate intracellular bacterial pathogens responsible for a variety of diseases in humans and economically important animal species. Our work demonstrates thatChlamydiaspp. produce a PP2C capable of dephosphorylating P-Thr, P-Ser, and P-Tyr and thatChlamydia trachomatisEBs and RBs possess phosphatase activity. In conjunction with the chlamydial Hanks'-type kinases Pkn1 and PknD, validation of CTL0511 fulfills the enzymatic requirements for a reversible phosphoprotein network. As protein phosphorylation regulates important cellular processes, including metabolism, differentiation, and virulence, in other bacterial pathogens, these results set the stage for elucidating the role of global protein phosphorylation in chlamydial physiology and virulence.
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Verma, Anita, i Anthony T. Maurelli. "Identification of Two Eukaryote-Like Serine/Threonine Kinases Encoded by Chlamydia trachomatis Serovar L2 and Characterization of Interacting Partners of Pkn1". Infection and Immunity 71, nr 10 (październik 2003): 5772–84. http://dx.doi.org/10.1128/iai.71.10.5772-5784.2003.
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ABSTRACT Genome sequencing of C. trachomatis serovar D revealed the presence of three putative open reading frames (ORFs), CT145 (Pkn1), CT673 (Pkn5), and CT301 (PknD), encoding eukaryote-like serine/threonine kinases (Ser/Thr kinases). Two of these putative kinase genes, CT145 and CT301, were PCR amplified from serovar L2, cloned, and sequenced. Predicted translation products of the ORFs showed the presence of conserved kinase motifs at the N terminus of the proteins. CT145 and CT301 (encoding Pkn1 and PknD, respectively) were expressed in Escherichia coli as GST fusion proteins. In vitro kinase assays with Escherichia coli-derived glutathione S-transferase fusion proteins showed autophosphorylation of Pkn1 and PknD, indicating that they are functional kinases. Gene expression analysis of these kinase genes in Chlamydia by reverse transcriptase PCR indicated expression of these kinases at the early mid phase of the developmental cycle. Immunoprecipitated native chlamydial Pkn1 and PknD proteins also showed autophosphorylation in an in vitro kinase assay. Phosphoamino acid analysis by thin-layer chromatography confirmed that Pkn1 and PknD are phosphorylated on both serine and threonine residues. Interaction of Pkn1 and PknD with each other as well as interaction of Pkn1 with inclusion membrane protein G (IncG) was demonstrated by using a bacterial two-hybrid system. These interactions were further suggested by phosphorylation of the proteins in in vitro kinase assays. This report is the first description of the existence of functional Ser/Thr kinases in Chlamydia. The results of these findings should lead to a better understanding of how Chlamydia interact and interfere with host signaling pathways, since kinases represent potential mediators of the intimate host-pathogen interactions that are essential to the intracellular life cycle of Chlamydia.
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Mao, Xinguo, Yuying Li, Shoaib Ur Rehman, Lili Miao, Yanfei Zhang, Xin Chen, Chunmei Yu, Jingyi Wang, Chaonan Li i Ruilian Jing. "The Sucrose Non-Fermenting 1-Related Protein Kinase 2 (SnRK2) Genes Are Multifaceted Players in Plant Growth, Development and Response to Environmental Stimuli". Plant and Cell Physiology 61, nr 2 (13.12.2019): 225–42. http://dx.doi.org/10.1093/pcp/pcz230.
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Abstract Reversible protein phosphorylation orchestrated by protein kinases and phosphatases is a major regulatory event in plants and animals. The SnRK2 subfamily consists of plant-specific protein kinases in the Ser/Thr protein kinase superfamily. Early observations indicated that SnRK2s are mainly involved in response to abiotic stress. Recent evidence shows that SnRK2s are multifarious players in a variety of biological processes. Here, we summarize the considerable knowledge of SnRK2s, including evolution, classification, biological functions and regulatory mechanisms at the epigenetic, post-transcriptional and post-translation levels.
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HEESOM, Kate J., Matthew B. AVISON, Tricia A. DIGGLE i Richard M. DENTON. "Insulin-stimulated kinase from rat fat cells that phosphorylates initiation factor 4E-binding protein 1 on the rapamycin-insensitive site (serine-111)". Biochemical Journal 336, nr 1 (15.11.1998): 39–48. http://dx.doi.org/10.1042/bj3360039.
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The effects of insulin and rapamycin on the phosphorylation of the translation regulator, initiation factor 4E-binding protein 1 (4E-BP1) have been studied in rat fat cells by following changes in the incorporation of 32P from [32P]Pi under steady-state conditions. Both unbound 4E-BP1 and 4E-BP1 bound to eukaryotic initiation factor 4E (eIF4E) were isolated from the cells and then digested with trypsin and other proteases; the radiolabelled phosphopeptides were then separated by two-dimensional thin- layer analysis and HPLC. The results provide confirmation of the conclusion of Fadden, Haystead and Lawrence [J. Biol. Chem. (1997) 272, 10240–10247] that insulin increases the phosphorylation of four sites that fit a Ser/Thr-Pro motif (Thr-36, Thr-45, Ser-64 and Thr-69) and that taken together these phosphorylations result in the dissociation of 4E-BP1 from eIF4E. The effects of insulin on the phosphorylation of these sites, and hence dissociation from eIF4E, are blocked by rapamycin. However, the present study also provides evidence that insulin increases the phosphorylation of 4E-BP1 bound to eIF4E on a further site (Ser-111) and that this is by a rapamycin-insensitive mechanism. Extraction of rat epididymal fat cells followed by chromatography on Mono-S and Superose 12 columns resulted in the separation of both an insulin-stimulated eIF4E kinase and an apparently novel kinase that is highly specific for Ser-111 of 4E-BP1. The 4E-BP1 kinase was activated more than 10-fold by incubation of the cells with insulin and was markedly more active towards 4E-BP1 bound to eIF4E than towards unbound 4E-BP1. The effects of insulin were blocked by wortmannin, but not by rapamycin. A 14-mer peptide based on the sequence surrounding Ser-111 of 4E-BP1 was also a substrate for the kinase, but peptide substrates for other known protein kinases were not. The kinase is quite distinct from casein kinase 2, which also phosphorylates Ser-111 of 4E-BP1. The possible importance of these kinases in the phosphorylation of 4E-BP1 in fat cells is discussed. It is suggested that the phosphorylation of Ser-111 might be a priming event that facilitates the subsequent phosphorylation of Thr-36, Thr-45, Ser-64 and Thr69 by a rapamycin-sensitive process that initiates the dissociation of 4E-BP1 from eIF4E and hence the formation of the eIF4F complex.
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FACCHIN, Sonia, Raffaele LOPREIATO, Silvia STOCCHETTO, Giorgio ARRIGONI, Luca CESARO, Oriano MARIN, Giovanna CARIGNANI i Lorenzo A. PINNA. "Structure–function analysis of yeast piD261/Bud32, an atypical protein kinase essential for normal cell life". Biochemical Journal 364, nr 2 (1.06.2002): 457–63. http://dx.doi.org/10.1042/bj20011376.
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The Saccharomyces cerevisiae YGR262c/BUD32 gene, whose disruption causes a severe pleiotropic phenotype, encodes a 261-residue putative protein kinase, piD261, whose structural homologues have been identified in a variety of organisms, including humans, and whose function is unknown. We have demonstrated previously that piD261, expressed in Escherichia coli as a recombinant protein, is a Ser/Thr kinase, as judged by its ability to autophosphorylate and to phosphorylate casein. Here we describe a mutational analysis showing that, despite low sequence similarity, the invariant residues representing the signature of protein kinases are conserved in piD261 and in its structural homologues, but are embedded in an altered context, suggestive of unique mechanistic properties. Especially noteworthy are: (i) three unique inserts of unknown function within the N-terminal lobe, (ii) the lack of a lysyl residue which in all other Ser/Thr kinases participates in the catalytic event by interacting with the transferred ATP γ-phosphate, and which in piD261 is replaced by a threonine, and (iii) an exceedingly short activation loop including two serines, Ser-187 and Ser-189, whose autophosphorylation accounts for the appearance of an upshifted band upon SDS/PAGE. A mutant in which these serines are replaced by alanines was devoid of the upshifted band and displayed reduced catalytic activity. This would include piD261 in the category of protein kinases activated by phosphorylation, although it lacks the RD (Arg-Asp) motif which is typical of these enzymes.
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Boo, Yong Chool, i Hanjoong Jo. "Flow-dependent regulation of endothelial nitric oxide synthase: role of protein kinases". American Journal of Physiology-Cell Physiology 285, nr 3 (wrzesień 2003): C499—C508. http://dx.doi.org/10.1152/ajpcell.00122.2003.
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Vascular endothelial cells are directly and continuously exposed to fluid shear stress generated by blood flow. Shear stress regulates endothelial structure and function by controlling expression of mechanosensitive genes and production of vasoactive factors such as nitric oxide (NO). Though it is well known that shear stress stimulates NO production from endothelial nitric oxide synthase (eNOS), the underlying molecular mechanisms remain unclear and controversial. Shear-induced production of NO involves Ca2+/calmodulin-independent mechanisms, including phosphorylation of eNOS at several sites and its interaction with other proteins, including caveolin and heat shock protein-90. There have been conflicting results as to which protein kinases—protein kinase A, protein kinase B (Akt), other Ser/Thr protein kinases, or tyrosine kinases—are responsible for shear-dependent eNOS regulation. The functional significance of each phosphorylation site is still unclear. We have attempted to summarize the current status of understanding in shear-dependent eNOS regulation.
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Tyler, Jessica S., i David I. Friedman. "Characterization of a Eukaryotic-Like Tyrosine Protein Kinase Expressed by the Shiga Toxin-Encoding Bacteriophage 933W". Journal of Bacteriology 186, nr 11 (1.06.2004): 3472–79. http://dx.doi.org/10.1128/jb.186.11.3472-3479.2004.
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ABSTRACT The Shiga toxin (Stx)-encoding bacteriophage 933W contains an open reading frame, stk, with amino acid sequence similarity to the catalytic domain of eukaryotic serine/threonine (Ser/Thr) protein kinases (PKs). Eukaryotic PKs are related by a common catalytic domain, consisting of invariant and nearly invariant residues necessary for ATP binding and phosphotransfer. We demonstrate that rather than a Ser/Thr kinase, stk encodes a eukaryotic-like tyrosine (Tyr) kinase. An affinity-purified recombinant Stk (rStk) autophosphorylates and catalyzes the phosphorylation of an artificial substrate on Tyr residues and not on Ser or Thr residues. A change of an invariant lysine within the putative catalytic domain abolishes this kinase activity, indicating that Stk uses a phosphotransfer mechanism similar to the mechanism used by eukaryotic PKs. We provide evidence suggesting that stk is cotranscribed with cI from the phage promoter responsible for maintaining CI expression during lysogeny. The stk gene was identified in prophages obtained from independently isolated Stx-producing Escherichia coli clinical isolates, suggesting that selective pressure has maintained the stk gene in these pathogenic bacteria.
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Morrison, Donna L., Jasbinder S. Sanghera, Justine Stewart, Steven L. Pelech, Cindy Sutherland i Michael P. Walsh. "Phosphorylation and activation of smooth muscle myosin light chain kinase by MAP kinase and cyclin-dependent kinase-1". Biochemistry and Cell Biology 74, nr 4 (1.07.1996): 549–57. http://dx.doi.org/10.1139/o96-459.
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Smooth muscle myosin light chain kinase (MLCK) features several consensus sites of phosphorylation by proline-directed protein serine/threonine kinases. The phosphorylation of MLCK by two proline-directed kinases isolated from sea star oocytes, i.e., p44mpk (Mpk, a mitogen-activated protein kinase homologue) and cyclin-dependent kinase-1 (CDK1, also known as p34cdc2), was investigated. Chicken gizzard MLCK was phosphorylated on seryl and fhreonyl residues by both Mpk and CDK1. Phosphorylation of MLCK to 0.6 mol Pi/mol by Mpk increased the Vmax of phosphotransferase activity towards a synthetic peptide corresponding to residues 11–23 of the 20-kDa light chain of myosin by 1.6-fold. Phosphorylation of MLCK to 1.0 mol Pi/mol by CDK1 increased the Vmax by 2.3-fold. Phosphorylation by either kinase had no significant effect on the concentration of calmodulin required for half-maximal activation of MLCK. Analysis of the phosphorylation of synthetic peptides containing consensus phosphorylation sites for Mpk and CDK1 indicated that the major site of phosphorylation in MLCK by Mpk was Ser-834, and by CDK1 was Thr-283. Both of these sites are located outside the cafmodulin-binding site (residues 796–815), consistent with the observation that phosphorylation by Mpk or CDK1 was unaffected by the presence of bound Ca2+/calmodulin. These results indicate that MLCK activity may be regulated by phosphorylation catalyzed by proline-directed kinases, possibly directed at Thr-40 and Thr-43 at the amino terminus of MLCK.Key words: myosin light chain kinase, mitogen-activated protein kinase, cyclin-dependent kinase.
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Atkinson, Eleanor L., Jessica Iegre, Paul D. Brear, Elizabeth A. Zhabina, Marko Hyvönen i David R. Spring. "Downfalls of Chemical Probes Acting at the Kinase ATP-Site: CK2 as a Case Study". Molecules 26, nr 7 (31.03.2021): 1977. http://dx.doi.org/10.3390/molecules26071977.
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Protein kinases are a large class of enzymes with numerous biological roles and many have been implicated in a vast array of diseases, including cancer and the novel coronavirus infection COVID-19. Thus, the development of chemical probes to selectively target each kinase is of great interest. Inhibition of protein kinases with ATP-competitive inhibitors has historically been the most widely used method. However, due to the highly conserved structures of ATP-sites, the identification of truly selective chemical probes is challenging. In this review, we use the Ser/Thr kinase CK2 as an example to highlight the historical challenges in effective and selective chemical probe development, alongside recent advances in the field and alternative strategies aiming to overcome these problems. The methods utilised for CK2 can be applied to an array of protein kinases to aid in the discovery of chemical probes to further understand each kinase’s biology, with wide-reaching implications for drug development.
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DESDOUITS, Frédéric, C. Julio SICILIANO, C. Angus NAIRN, Paul GREENGARD i Jean-Antoine GIRAULT. "Dephosphorylation of Ser-137 in DARPP-32 by protein phosphatases 2A and 2C: different roles in vitro and in striatonigral neurons". Biochemical Journal 330, nr 1 (15.02.1998): 211–16. http://dx.doi.org/10.1042/bj3300211.
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DARPP-32 (dopamine- and cAMP-regulated phosphoprotein, Mr = 32000) is highly expressed in striatonigral neurons in which its phosphorylation is regulated by several neurotransmitters including dopamine and glutamate. DARPP-32 becomes a potent inhibitor of protein phosphatase 1 when it is phosphorylated on Thr-34 by cAMP- or cGMP-dependent protein kinases. DARPP-32 is also phosphorylated on Ser-137 by protein kinase CK1 (CK1), in vitro and in vivo. This phosphorylation has an important regulatory role since it inhibits the dephosphorylation of Thr-34 by calcineurin in vitro and in striatonigral neurons. Here, we show that DARPP-32 phosphorylated by CK1 is a substrate in vitro for protein phosphatases 2A and 2C, but not protein phosphatase 1 or calcineurin. However, in substantia nigra slices, dephosphorylation of Ser-137 was markedly sensitive to decreased temperature, and not detectably affected by the presence of okadaic acid under conditions in which dephosphorylation of Thr-34 by protein phosphatase 2A was inhibited. These results suggest that, in neurons, phospho-Ser-137-DARPP-32 is dephosphorylated by protein phosphatase 2C, but not 2A. Thus, DARPP-32 appears to be a component of a regulatory cascade of phosphatases in which dephosphorylation of Ser-136 by protein phosphatase 2C facilitates dephosphorylation of Thr-34 by calcineurin, removing the cyclic nucleotide-induced inhibition of protein phosphatase 1.
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Massillon, D., W. Stalmans, G. van de Werve i M. Bollen. "Identification of the glycogenic compound 5-iodotubercidin as a general protein kinase inhibitor". Biochemical Journal 299, nr 1 (1.04.1994): 123–28. http://dx.doi.org/10.1042/bj2990123.
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Addition of micromolar concentrations of the adenosine derivative 5-iodotubercidin (Itu) initiates glycogen synthesis in isolated hepatocytes by causing inactivation of phosphorylase and activation of glycogen synthase [Flückiger-Isler and Walter (1993) Biochem. J. 292, 85-91]. We report here that Itu also antagonizes the effects of saturating concentrations of glucagon and vasopressin on these enzymes. The Itu-induced activation of glycogen synthase could not be explained by the removal of phosphorylase a (a potent inhibitor of the glycogen-associated synthase phosphatase). When tested on purified enzymes, Itu did not affect the activities of the major Ser/Thr-specific protein phosphatases (PP-1, PP-2A, PP-2B and PP-2C), but it inhibited various Ser/Thr-specific protein kinases as well as the tyrosine kinase activity of the insulin receptor (IC50 between 0.4 and 28 microM at 10-15 microM ATP). Tubercidin, which did not affect glycogen synthase or phosphorylase in liver cells, was 300 times less potent as a protein kinase inhibitor. Kinetic analysis of the inhibition of casein kinase-1 and protein kinase A showed that Itu acts as a competitive inhibitor with respect to ATP, and as a mixed-type inhibitor with respect to the protein substrate. We propose that Itu inactivates phosphorylase and activates glycogen synthase by inhibiting phosphorylase kinase and various glycogen synthase kinases. Consistent with the broad specificity of Itu in vitro, this compound decreased the phosphorylation level of numerous phosphopolypeptides in intact liver cells. Our data suggest that at least some of the biological effects of Itu can be explained by an inhibition of protein kinases.
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Hoekstra, M. F., N. Dhillon, G. Carmel, A. J. DeMaggio, R. A. Lindberg, T. Hunter i J. Kuret. "Budding and fission yeast casein kinase I isoforms have dual-specificity protein kinase activity." Molecular Biology of the Cell 5, nr 8 (sierpień 1994): 877–86. http://dx.doi.org/10.1091/mbc.5.8.877.
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We have examined the activity and substrate specificity of the Saccharomyces cerevisiae Hrr25p and the Schizosaccharomyces pombe Hhp1, Hhp2, and Cki1 protein kinase isoforms. These four gene products are isotypes of casein kinase I (CKI), and the sequence of these protein kinases predicts that they are protein serine/threonine kinases. However, each of these four protein kinases, when expressed in Escherichia coli in an active form, was recognized by anti-phosphotyrosine antibodies. Phosphoamino acid analysis of 32P-labeled proteins showed phosphorylation on serine, threonine, and tyrosine residues. The E. coli produced forms of Hhp1, Hhp2, and Cki1 were autophosphorylated on tyrosine, and both Hhp1 and Hhp2 were capable of phosphorylating the tyrosine-protein kinase synthetic peptide substrate polymer poly-E4Y1. Immune complex protein kinases assays from S. pombe cells showed that Hhp1-containing precipitates were associated with a protein-tyrosine kinase activity, and the Hhp1 present in these immunoprecipitates was phosphorylated on tyrosine residues. Although dephosphorylation of Hhp1 and Hhp2 by Ser/Thr phosphatase had little effect on the specific activity, tyrosine dephosphorylation of Hhp1 and Hhp2 caused a 1.8-to 3.1-fold increase in the Km for poly-E4Y1 and casein. These data demonstrate that four different CKI isoforms from two different yeasts are capable of protein-tyrosine kinase activity and encode dual-specificity protein kinases.
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van WILLIGEN, Gijsbert, Ingeborg HERS, Gertie GORTER i Jan-Willem N. AKKERMAN. "Exposure of ligand-binding sites on platelet integrin αIIB/β3 by phosphorylation of the β3 subunit". Biochemical Journal 314, nr 3 (15.03.1996): 769–79. http://dx.doi.org/10.1042/bj3140769.
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The exposure of ligand-binding sites for adhesive proteins on platelet integrin αIIB/β3 (glycoprotein IIB/IIIA) by platelet-activating factor (PAF) is transient, whereas sites exposed by α-thrombin remain accessible. The same difference is seen in the phosphorylation of the β3 subunit. Inhibition of protein kinases (1 μM staurosporine) and protein kinase C (10 μM bisindolylmaleimide) closes binding sites exposed by both agonists and induces dephosphorylation of β3. Inhibition of Tyr-kinases (20 μM Herbimycin A) has only a slight effect. Inhibition of Ser/Thr-phosphatases (1 μM okadaic acid, 30 s preincubation) changes the transient exposure and β3 phosphorylation by PAF into the ‘permanent’ patterns induced by α-thrombin. Inhibition of Tyr-phosphatases (100 μM vanadate) has little effect. Preincubation with okadaic acid makes exposed binding sites and phosphorylated β3 insensitive to staurosporine, resulting in exposed αIIB/β3 independent of concurrent phosphorylation/dephosphorylation. The stoichiometry of β3 phosphorylation by α-thrombin is 0.80±0.10. Thus, one of the mechanisms that regulates exposure and closure of ligand-binding sites on the αIIB/β3 is phosphorylation/dephosphorylation of a Ser/Thr-residue in the β3 subunit.
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Nováková, Linda, Silvia Bezoušková, Petr Pompach, Petra Špidlová, Lenka Sasková, Jaroslav Weiser i Pavel Branny. "Identification of Multiple Substrates of the StkP Ser/Thr Protein Kinase in Streptococcus pneumoniae". Journal of Bacteriology 192, nr 14 (7.05.2010): 3629–38. http://dx.doi.org/10.1128/jb.01564-09.
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ABSTRACT Monitoring the external environment and responding to its changes are essential for the survival of all living organisms. The transmission of extracellular signals in prokaryotes is mediated mainly by two-component systems. In addition, genomic analyses have revealed that many bacteria contain eukaryotic-type Ser/Thr protein kinases. The human pathogen Streptococcus pneumoniae encodes 13 two-component systems and has a single copy of a eukaryotic-like Ser/Thr protein kinase gene designated stkP. Previous studies demonstrated the pleiotropic role of the transmembrane protein kinase StkP in pneumococcal physiology. StkP regulates virulence, competence, and stress resistance and plays a role in the regulation of gene expression. To determine the intracellular signaling pathways controlled by StkP, we used a proteomic approach for identification of its substrates. We detected six proteins phosphorylated on threonine by StkP continuously during growth. We identified three new substrates of StkP: the Mn-dependent inorganic pyrophosphatase PpaC, the hypothetical protein spr0334, and the cell division protein DivIVA. Contrary to the results of a previous study, we did not confirm that the α-subunit of RNA polymerase is a target of StkP. We showed that StkP activation and substrate recognition depend on the presence of a peptidoglycan-binding domain comprising four extracellular penicillin-binding protein- and Ser/Thr kinase-associated domain (PASTA domain) repeats. We found that StkP is regulated in a growth-dependent manner and likely senses intracellular peptidoglycan subunits present in the cell division septa. In addition, stkP inactivation results in cell division defects. Thus, the data presented here suggest that StkP plays an important role in the regulation of cell division in pneumococcus.
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Guerra, Barbara, i Olaf-Georg Issinger. "Natural Compounds and Derivatives as Ser/Thr Protein Kinase Modulators and Inhibitors". Pharmaceuticals 12, nr 1 (1.01.2019): 4. http://dx.doi.org/10.3390/ph12010004.
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The need for new drugs is compelling, irrespective of the disease. Focusing on medical problems in the Western countries, heart disease and cancer are at the moment predominant illnesses. Owing to the fact that ~90% of all 21,000 cellular proteins in humans are regulated by phosphorylation/dephosphorylation it is not surprising that the enzymes catalysing these reactions (i.e., protein kinases and phosphatases, respectively) have attracted considerable attention in the recent past. Protein kinases are major team players in cell signalling. In tumours, these enzymes are found to be mutated disturbing the proper function of signalling pathways and leading to uncontrolled cellular growth and sustained malignant behaviour. Hence, the search for small-molecule inhibitors targeting the altered protein kinase molecules in tumour cells has become a major research focus in the academia and pharmaceutical companies.
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Fujino, Aiko, Kei Fukushima, Naoko Namiki, Tomomi Kosugi i Midori Takimoto-Kamimura. "Structural analysis of an MK2–inhibitor complex: insight into the regulation of the secondary structure of the Gly-rich loop by TEI-I01800". Acta Crystallographica Section D Biological Crystallography 66, nr 1 (21.12.2009): 80–87. http://dx.doi.org/10.1107/s0907444909046411.
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Mitogen-activated protein kinase-activated protein kinase 2 (MAPKAP-K2 or MK2) is a Ser/Thr kinase from the p38 mitogen-activated protein kinase signalling pathway and plays an important role in inflammatory diseases. The crystal structure of the complex of human MK2 (residues 41–364) with the potent MK2 inhibitor TEI-I01800 (pKi= 6.9) was determined at 2.9 Å resolution. The MK2 structure in the MK2–TEI-I01800 complex is composed of two domains, as observed for other Ser/Thr kinases; however, the Gly-rich loop in the N-terminal domain forms an α-helix structure and not a β-sheet. TEI-I01800 binds to the ATP-binding site as well as near the substrate-binding site of MK2. Both TEI-I01800 molecules have a nonplanar conformation that differs from those of other MK2 inhibitors deposited in the Protein Data Bank. The MK2–TEI-I01800 complex structure is the first active MK2 with an α-helical Gly-rich loop and TEI-I01800 regulates the secondary structure of the Gly-rich loop.
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Klomp, Jennifer E., Vincent Huyot, Anne-Marie Ray, Kerrie B. Collins, Asrar B. Malik i Andrei V. Karginov. "Mimicking transient activation of protein kinases in living cells". Proceedings of the National Academy of Sciences 113, nr 52 (12.12.2016): 14976–81. http://dx.doi.org/10.1073/pnas.1609675114.
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Physiological stimuli activate protein kinases for finite periods of time, which is critical for specific biological outcomes. Mimicking this transient biological activity of kinases is challenging due to the limitations of existing methods. Here, we report a strategy enabling transient kinase activation in living cells. Using two protein-engineering approaches, we achieve independent control of kinase activation and inactivation. We show successful regulation of tyrosine kinase c-Src (Src) and Ser/Thr kinase p38α (p38), demonstrating broad applicability of the method. By activating Src for finite periods of time, we reveal how the duration of kinase activation affects secondary morphological changes that follow transient Src activation. This approach highlights distinct roles for sequential Src-Rac1– and Src-PI3K–signaling pathways at different stages during transient Src activation. Finally, we demonstrate that this method enables transient activation of Src and p38 in a specific signaling complex, providing a tool for targeted regulation of individual signaling pathways.
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Song, Weimeng, Li Hu, Zhihui Ma, Lei Yang i Jianming Li. "Importance of Tyrosine Phosphorylation in Hormone-Regulated Plant Growth and Development". International Journal of Molecular Sciences 23, nr 12 (13.06.2022): 6603. http://dx.doi.org/10.3390/ijms23126603.
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Protein phosphorylation is the most frequent post-translational modification (PTM) that plays important regulatory roles in a wide range of biological processes. Phosphorylation mainly occurs on serine (Ser), threonine (Thr), and tyrosine (Tyr) residues, with the phosphorylated Tyr sites accounting for ~1–2% of all phosphorylated residues. Tyr phosphorylation was initially believed to be less common in plants compared to animals; however, recent investigation indicates otherwise. Although they lack typical protein Tyr kinases, plants possess many dual-specificity protein kinases that were implicated in diverse cellular processes by phosphorylating Ser, Thr, and Tyr residues. Analyses of sequenced plant genomes also identified protein Tyr phosphatases and dual-specificity protein phosphatases. Recent studies have revealed important regulatory roles of Tyr phosphorylation in many different aspects of plant growth and development and plant interactions with the environment. This short review summarizes studies that implicated the Tyr phosphorylation in biosynthesis and signaling of plant hormones.
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Kowalsky, Allison Ho, Sim Namkoong, Eric Mettetal, Hwan-Woo Park, Dubek Kazyken, Diane C. Fingar i Jun Hee Lee. "The GATOR2–mTORC2 axis mediates Sestrin2-induced AKT Ser/Thr kinase activation". Journal of Biological Chemistry 295, nr 7 (8.01.2020): 1769–80. http://dx.doi.org/10.1074/jbc.ra119.010857.
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Sestrins represent a family of stress-inducible proteins that prevent the progression of many age- and obesity-associated disorders. Endogenous Sestrins maintain insulin-dependent AKT Ser/Thr kinase (AKT) activation during high-fat diet–induced obesity, and overexpressed Sestrins activate AKT in various cell types, including liver and skeletal muscle cells. Although Sestrin-mediated AKT activation improves metabolic parameters, the mechanistic details underlying such improvement remain elusive. Here, we investigated how Sestrin2, the Sestrin homolog highly expressed in liver, induces strong AKT activation. We found that two known targets of Sestrin2, mTOR complex (mTORC) 1 and AMP-activated protein kinase, are not required for Sestrin2-induced AKT activation. Rather, phosphoinositol 3-kinase and mTORC2, kinases upstream of AKT, were essential for Sestrin2-induced AKT activation. Among these kinases, mTORC2 catalytic activity was strongly up-regulated upon Sestrin2 overexpression in an in vitro kinase assay, indicating that mTORC2 may represent the major link between Sestrin2 and AKT. As reported previously, Sestrin2 interacted with mTORC2; however, we found here that this interaction occurs indirectly through GATOR2, a pentameric protein complex that directly interacts with Sestrin2. Deleting or silencing WDR24 (WD repeat domain 24), the GATOR2 component essential for the Sestrin2–GATOR2 interaction, or WDR59, the GATOR2 component essential for the GATOR2–mTORC2 interaction, completely ablated Sestrin2-induced AKT activation. We also noted that Sestrin2 also directly binds to the pleckstrin homology domain of AKT and induces AKT translocation to the plasma membrane. These results uncover a signaling mechanism whereby Sestrin2 activates AKT through GATOR2 and mTORC2.
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Av-Gay, Yossef, Sarwat Jamil i Steven J. Drews. "Expression and Characterization of the Mycobacterium tuberculosis Serine/Threonine Protein Kinase PknB". Infection and Immunity 67, nr 11 (1.11.1999): 5676–82. http://dx.doi.org/10.1128/iai.67.11.5676-5682.1999.
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ABSTRACT PknB is a member of the newly discovered eukaryotic-like protein serine/threonine kinase (PSTK) family of proteins. The pknBgene was cloned and expressed in Escherichia coli. The active recombinant protein was purified and shown to be reactive with antiphosphoserine antibodies, as well as with antibodies to the phosphorylated eukaryotic Ser/Thr kinases mitogen-activated protein kinase kinase 3 and 6, P38, and Creb. In vitro kinase assays demonstrated that PknB is a functional kinase that is autophosphorylated on serine/threonine residues and is also able to phosphorylate the peptide substrate myelin basic protein. Analysis ofpknB expression in Mycobacterium tuberculosisindicates the presence of pknB mRNA in (i) organisms grown in vitro in bacteriological media, (ii) a murine macrophage in vitro infection model, and (iii) in vivo alveolar macrophages from a patient with tuberculosis.
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Wang, Cheng C., Mariano Tao, Tiequan Wei i Philip S. Low. "Identification of the Major Casein Kinase I Phosphorylation Sites on Erythrocyte Band 3". Blood 89, nr 8 (15.04.1997): 3019–24. http://dx.doi.org/10.1182/blood.v89.8.3019.
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Abstract Human erythrocyte band 3 is a major substrate of two red blood cell protein kinases, casein kinase I and p72syk protein tyrosine kinase. Although the phosphorylation sites and physiologic consequences of p72syk phosphorylation have been characterized, little is known regarding casein kinase I phosphorylation. In this report, we identify the major phosphorylation site of casein kinase I. Using isolated components, casein kinase I was found to phosphorylate the cytoplasmic domain of band 3 (CDB3), primarily on Thr residues. Classical peptide mapping narrowed the major phosphorylation site to a peptide encompassing residues 24-91. Computer-assisted evaluation of this sequence not only showed two consensus casein kinase I phosphorylation sites, but also provided information on how to proteolytically separate and isolate the candidate sites. Following the suggested protocols, a heptapeptide containing the major phosphorylation site was isolated, subjected to amino acid sequencing, and found to be phosphorylated on Thr 42. A minor phosphorylation site was similarly identified as Ser 303. Because Thr 42 is situated near the binding sites on CDB3 of ankyrin, protein 4.1, protein 4.2, and the glycolytic enzymes, phosphorylation of CDB3 by casein kinase I could conceivably impact erythrocyte structure and/or function.
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Alomair, Lamya, Sabeena Mustafa, Mohsin Saleet Jafri, Wardah Alharbi, Abdulrhman Aljouie, Fahad Almsned, Mohammed Alawad, Yahya Abdulfattah Bokhari i Mamoon Rashid. "Molecular Dynamics Simulations to Decipher the Role of Phosphorylation of SARS-CoV-2 Nonstructural Proteins (nsps) in Viral Replication". Viruses 14, nr 11 (2.11.2022): 2436. http://dx.doi.org/10.3390/v14112436.
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Protein phosphorylation is a post-translational modification that enables various cellular activities and plays essential roles in protein interactions. Phosphorylation is an important process for the replication of Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2). To shed more light on the effects of phosphorylation, we used an ensemble of neural networks to predict potential kinases that might phosphorylate SARS-CoV-2 nonstructural proteins (nsps) and molecular dynamics (MD) simulations to investigate the effects of phosphorylation on nsps structure, which could be a potential inhibitory target to attenuate viral replication. Eight target candidate sites were found as top-ranked phosphorylation sites of SARS-CoV-2. During the process of molecular dynamics (MD) simulation, the root-mean-square deviation (RMSD) analysis was used to measure conformational changes in each nsps. Root-mean-square fluctuation (RMSF) was employed to measure the fluctuation in each residue of 36 systems considered, allowing us to evaluate the most flexible regions. These analysis shows that there are significant structural deviations in the residues namely nsp1 THR 72, nsp2 THR 73, nsp3 SER 64, nsp4 SER 81, nsp4 SER 455, nsp5 SER284, nsp6 THR 238, and nsp16 SER 132. The identified list of residues suggests how phosphorylation affects SARS-CoV-2 nsps function and stability. This research also suggests that kinase inhibitors could be a possible component for evaluating drug binding studies, which are crucial in therapeutic discovery research.
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Xing, Jun, Jon M. Kornhauser, Zhengui Xia, Elizabeth A. Thiele i Michael E. Greenberg. "Nerve Growth Factor Activates Extracellular Signal-Regulated Kinase and p38 Mitogen-Activated Protein Kinase Pathways To Stimulate CREB Serine 133 Phosphorylation". Molecular and Cellular Biology 18, nr 4 (1.04.1998): 1946–55. http://dx.doi.org/10.1128/mcb.18.4.1946.
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ABSTRACT The mechanisms by which growth factor-induced signals are propagated to the nucleus, leading to the activation of the transcription factor CREB, have been characterized. Nerve growth factor (NGF) was found to activate multiple signaling pathways that mediate the phosphorylation of CREB at the critical regulatory site, serine 133 (Ser-133). NGF activates the extracellular signal-regulated kinase (ERK) mitogen-activated protein kinases (MAPKs), which in turn activate the pp90 ribosomal S6 kinase (RSK) family of Ser/Thr kinases, all three members of which were found to catalyze CREB Ser-133 phosphorylation in vitro and in vivo. In addition to the ERK/RSK pathway, we found that NGF activated the p38 MAPK and its downstream effector, MAPK-activated protein kinase 2 (MAPKAP kinase 2), resulting in phosphorylation of CREB at Ser-133. Inhibition of either the ERK/RSK or the p38/MAPKAP kinase 2 pathway only partially blocked NGF-induced CREB Ser-133 phosphorylation, suggesting that either pathway alone is sufficient for coupling the NGF signal to CREB activation. However, inhibition of both the ERK/RSK and the p38/MAPKAP kinase 2 pathways completely abolished NGF-induced CREB Ser-133 phosphorylation. These findings indicate that NGF activates two distinct MAPK pathways, both of which contribute to the phosphorylation of the transcription factor CREB and the activation of immediate-early genes.
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Zhou, Peifu, Dennis Wong, Wu Li, Jianping Xie i Yossef Av-Gay. "Phosphorylation of Mycobacterium tuberculosis protein tyrosine kinase A PtkA by Ser/Thr protein kinases". Biochemical and Biophysical Research Communications 467, nr 2 (listopad 2015): 421–26. http://dx.doi.org/10.1016/j.bbrc.2015.09.124.
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Mukhopadhyay, Subhendu, Vinayak Kapatral, Wenbin Xu i A. M. Chakrabarty. "Characterization of a Hank’s Type Serine/Threonine Kinase and Serine/Threonine Phosphoprotein Phosphatase inPseudomonas aeruginosa". Journal of Bacteriology 181, nr 21 (1.11.1999): 6615–22. http://dx.doi.org/10.1128/jb.181.21.6615-6622.1999.
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ABSTRACT Pseudomonas aeruginosa is an opportunistic pathogen that causes infections in eye, urinary tract, burn, and immunocompromised patients. We have cloned and characterized a serine/threonine (Ser/Thr) kinase and its cognate phosphoprotein phosphatase. By using oligonucleotides from the conserved regions of Ser/Thr kinases of mycobacteria, an 800-bp probe was used to screenP. aeruginosa PAO1 genomic library. A 20-kb cosmid clone was isolated, from which a 4.5-kb DNA with two open reading frames (ORFs) were subcloned. ORF1 was shown to encode Ser/Thr phosphatase (Stp1), which belongs to the PP2C family of phosphatases. Overlapping with the stp1 ORF, an ORF encoding Hank’s type Ser/Thr kinase was identified. Both ORFs were cloned in pGEX-4T1 and expressed in Escherichia coli. The overexpressed proteins were purified by glutathione-Sepharose 4B affinity chromatography and were biochemically characterized. The Stk1 kinase is 39 kDa and undergoes autophosphorylation and can phosphorylate eukaryotic histone H1. A site-directed Stk1 (K86A) mutant was shown to be incapable of autophosphorylation. A two-dimensional phosphoamino acid analysis of Stk1 revealed strong phosphorylation at a threonine residue and weak phosphorylation at a serine residue. The Stp1 phosphatase is 27 kDa and is an Mn2+-, but not a Ca2+- or a Mg2+-, dependent Ser/Thr phosphatase. Its activity is inhibited by EDTA and NaF, but not by okadaic acid, and is similar to that of PP2C phosphatase.
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Chen, R. H., C. Sarnecki i J. Blenis. "Nuclear localization and regulation of erk- and rsk-encoded protein kinases". Molecular and Cellular Biology 12, nr 3 (marzec 1992): 915–27. http://dx.doi.org/10.1128/mcb.12.3.915-927.1992.
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We demonstrate that members of the erk-encoded family of mitogen-activated protein (MAP) kinases (pp44/42mapk/erk) and members of the rsk-encoded protein kinases (RSKs or pp90rsk) are present in the cytoplasm and nucleus of HeLa cells. Addition of growth factors to serum-deprived cells results in increased tyrosine and threonine phosphorylation and in the activation of cytosolic and nuclear MAP kinases. Activated MAP kinases then phosphorylate (serine/threonine) and activate RSKs. Concurrently, a fraction of the activated MAP kinases and RSKs enter the nucleus. In addition, a distinct growth-regulated RSK-kinase activity (an enzyme[s] that phosphorylates recombinant RSK in vitro and that may be another member of the erk-encoded family of MAP kinases) was found associated with a postnuclear membrane fraction. Regulation of nuclear MAP kinase and RSK activities by growth factors and phorbol ester is coordinate with immediate-early gene expression. Indeed, in vitro, MAP kinase and/or RSK phosphorylates histone H3 and the recombinant c-Fos and c-Jun polypeptides, transcription factors phosphorylated in a variety of cells in response to growth stimuli. These in vitro studies raise the possibility that the MAP kinase/RSK signal transduction pathway represents a protein-Tyr/Ser/Thr phosphorylation cascade with the spatial distribution and temporal regulation that can account for the rapid transmission of growth-regulating information from the membrane, through the cytoplasm, and to the nucleus.
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Chen, R. H., C. Sarnecki i J. Blenis. "Nuclear localization and regulation of erk- and rsk-encoded protein kinases." Molecular and Cellular Biology 12, nr 3 (marzec 1992): 915–27. http://dx.doi.org/10.1128/mcb.12.3.915.
Pełny tekst źródłaStreszczenie:
We demonstrate that members of the erk-encoded family of mitogen-activated protein (MAP) kinases (pp44/42mapk/erk) and members of the rsk-encoded protein kinases (RSKs or pp90rsk) are present in the cytoplasm and nucleus of HeLa cells. Addition of growth factors to serum-deprived cells results in increased tyrosine and threonine phosphorylation and in the activation of cytosolic and nuclear MAP kinases. Activated MAP kinases then phosphorylate (serine/threonine) and activate RSKs. Concurrently, a fraction of the activated MAP kinases and RSKs enter the nucleus. In addition, a distinct growth-regulated RSK-kinase activity (an enzyme[s] that phosphorylates recombinant RSK in vitro and that may be another member of the erk-encoded family of MAP kinases) was found associated with a postnuclear membrane fraction. Regulation of nuclear MAP kinase and RSK activities by growth factors and phorbol ester is coordinate with immediate-early gene expression. Indeed, in vitro, MAP kinase and/or RSK phosphorylates histone H3 and the recombinant c-Fos and c-Jun polypeptides, transcription factors phosphorylated in a variety of cells in response to growth stimuli. These in vitro studies raise the possibility that the MAP kinase/RSK signal transduction pathway represents a protein-Tyr/Ser/Thr phosphorylation cascade with the spatial distribution and temporal regulation that can account for the rapid transmission of growth-regulating information from the membrane, through the cytoplasm, and to the nucleus.
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Wang, Luyao, Ying Gui, Bingye Yang, Wenpan Dong, Peiling Xu, Fangjie Si, Wei Yang i in. "Mitogen-Activated Protein Kinases Associated Sites of Tobacco Repression of Shoot Growth Regulates Its Localization in Plant Cells". International Journal of Molecular Sciences 23, nr 16 (11.08.2022): 8941. http://dx.doi.org/10.3390/ijms23168941.
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Plant defense and growth rely on multiple transcriptional factors (TFs). Repression of shoot growth (RSG) is a TF belonging to a bZIP family in tobacco, known to be involved in plant gibberellin feedback regulation by inducing the expression of key genes. The tobacco calcium-dependent protein kinase CDPK1 was reported to interact with RSG and manipulate its intracellular localization by phosphorylating Ser-114 of RSG previously. Here, we identified tobacco mitogen-activated protein kinase 3 (NtMPK3) as an RSG-interacting protein kinase. Moreover, the mutation of the predicted MAPK-associated phosphorylation site of RSG (Thr-30, Ser-74, and Thr-135) significantly altered the intracellular localization of the NtMPK3-RSG interaction complex. Nuclear transport of RSG and its amino acid mutants (T30A and S74A) were observed after being treated with plant defense elicitor peptide flg22 within 5 min, and the two mutated RSG swiftly re-localized in tobacco cytoplasm within 30 min. In addition, triple-point mutation of RSG (T30A/S74A/T135A) mimics constant unphosphorylated status, and is predominantly localized in tobacco cytoplasm. RSG (T30A/S74A/T135A) showed no re-localization effect under the treatments of flg22, B. cereus AR156, or GA3, and over-expression of this mutant in tobacco resulted in lower expression levels of downstream gene GA20ox1. Our results suggest that MAPK-associated phosphorylation sites of RSG regulate its localization in tobacco, and that constant unphosphorylation of RSG in Thr-30, Ser-74, and Thr-135 keeps RSG predominantly localized in cytoplasm.
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Nádvorník, Richard, Tomáš Vomastek, Jiří Janeček, Zuzana Techniková i Pavel Branny. "Pkg2, a Novel Transmembrane Protein Ser/Thr Kinase of Streptomyces granaticolor". Journal of Bacteriology 181, nr 1 (1.01.1999): 15–23. http://dx.doi.org/10.1128/jb.181.1.15-23.1999.
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ABSTRACT A 4.2-kb SphI-BamHI fragment of chromosomal DNA from Streptomyces granaticolor was cloned and shown to encode a protein with significant sequence similarity to the eukaryotic protein serine/threonine kinases. It consists of 701 amino acids and in the N-terminal part contains all conserved catalytic domains of protein kinases. The C-terminal domain of Pkg2 contains seven tandem repeats of 11 or 12 amino acids with similarity to the tryptophan-docking motif known to stabilize a symmetrical three-dimensional structure called a propeller structure. The pkg2 gene was overexpressed inEscherichia coli, and the gene product (Pkg2) has been found to be autophosphorylated at serine and threonine residues. The N- and C-terminal parts of Pkg2 are separated with a hydrophobic stretch of 21 amino acids which translocated a PhoA fusion protein into the periplasm. Thus, Pkg2 is the first transmembrane protein serine/threonine kinase described for streptomycetes. Replacement of the pkg2 gene by the spectinomycin resistance gene resulted in changes in the morphology of aerial hyphae.
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Karthigeyan, Dhanasekan, Arnab Bose, Ramachandran Boopathi, Vinay Jaya Rao, Hiroki Shima, Narendra Bharathy, Kazuhiko Igarashi, Reshma Taneja, Arun Kumar Trivedi i Tapas K. Kundu. "Aurora kinase A-mediated phosphorylation of mPOU at a specific site drives skeletal muscle differentiation". Journal of Biochemistry 167, nr 2 (30.10.2019): 195–201. http://dx.doi.org/10.1093/jb/mvz088.
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Abstract Aurora kinases are Ser/Thr-directed protein kinases which play pivotal roles in mitosis. Recent evidences highlight the importance of these kinases in multiple biological events including skeletal muscle differentiation. Our earlier study identified the transcription factor POU6F1 (or mPOU) as a novel Aurora kinase (Aurk) A substrate. Here, we report that Aurora kinase A phosphorylates mPOU at Ser197 and inhibit its DNA-binding ability. Delving into mPOU physiology, we find that the phospho-mimic (S197D) mPOU mutant exhibits enhancement, while the wild type or the phospho-deficient mutant shows retardation in C2C12 myoblast differentiation. Interestingly, POU6F1 depletion phenocopies S197D-mPOU overexpression in the differentiation context. Collectively, our results signify mPOU as a negative regulator of skeletal muscle differentiation and strengthen the importance of AurkA in skeletal myogenesis.