EC:2.7.10.2 - FACTA Search

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Query: EC:2.7.10.2 (focal adhesion kinase)
44,029 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The proliferative effects of colony-stimulating factor 1 (CSF-1) on macrophages are exerted only throughout the G1 phase of the cell cycle. Genetic targets of the delayed early response to CSF-1 include novel G1 cyclin (CYL or cyclin D) genes. In macrophages, cyclin D1 is induced early in G1 and is expressed throughout the cell cycle as long as CSF-1 is present. The cyclin D1 protein turns over rapidly in CSF-1-stimulated cells and its level declines precipitously upon CSF-1 withdrawal. Cyclin D2 is induced later in G1 and its expression is periodic, whereas cyclin D3 is not expressed in macrophages but is regulated by growth factors in other cell types. The cyclin D1 protein associates during G1 with a polypeptide antigenically related to p34cdc2 and binds in vitro to a histone H1 kinase present in lysates of CSF-1-starved macrophages. The instability of the cyclin D1 protein and its ability to rescue a cyclin-dependent kinase activity from growth factor-deprived macrophages together suggest that the cyclin D protein is the dynamic partner in the complex. The timing of expression of cyclin D genes suggests that they act to link growth factor signals with cell cycle transitions during G1.
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PMID:Regulation of CYL/cyclin D genes by colony-stimulating factor 1. 148 47

Sequences encoded by the first exon of BCR that bind to the ABL SH2 domain are essential for the activation of the ABL tyrosine kinase and transforming potential of the chimeric BCR-ABL oncogene. The normal cellular BCR gene encodes a 160,000 dalton phosphoprotein associated with a serine/threonine kinase activity, but it shows only weak dispersed homologies to protein kinases. p160c-BCR was purified to apparent homogeneity as an oligomer of greater than 600,000 daltons that contains autophosphorylation activity and transphosphorylation activity for several protein substrates. A region containing paired cysteine residues within the 426 amino acids encoded by the first exon of BCR is essential for its novel phosphotransferase activity, which overlaps with the strong SH2-binding regions. The recent demonstration of a GTPase-activating function within the C-terminal portion of BCR suggests that the protein kinase and SH2-binding domains may work in concert with other regions of the molecule in intracellular signalling processes.
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PMID:The BCR gene encodes a novel serine/threonine kinase activity within a single exon. 165 98

Highly degenerate oligonucleotide primers designed from regions conserved between protein-serine kinases have been used specifically to amplify human epithelial (HeLa) cDNA by the polymerase chain reaction (PCR). Of several novel cDNA fragments encoding putative kinases thus isolated, one was further characterised. Screening of human fibroblast and bovine brain cDNA libraries with the PCR fragment yielded several clones with an open reading frame of 479 amino acids containing all of the conserved sequence motifs of protein-serine kinases. The predicted protein was most similar to the protein kinase C (PKC)/cAMP-dependent protein kinase (PKA) families and its gene has thus been termed pkb. Expression of the pkb gene is general but highest in brain, heart and lung. Translation of pkb RNA in vitro generated a 57-kDa protein (PKB) recognised by antisera raised to a bacterially expressed PKB/TrpE fusion protein. Transfection of COS cells with the kinase cDNA resulted in the synthesis of a 60-kDa protein which was partially purified by Mono Q anion-exchange chromatography. Column fractions containing PKB-immunoreactive protein exhibited elevated histone H1 kinase activity compared with similar fractions from control cells, demonstrating the enzymatic activity of this protein kinase.
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PMID:Molecular cloning and characterisation of a novel putative protein-serine kinase related to the cAMP-dependent and protein kinase C families. 153 86

The protein-tyrosine kinases (PTKs) are a burgeoning family of proteins, each of which bears a conserved domain of 250 to 300 amino acids capable of phosphorylating substrate proteins on tyrosine residues. We recently exploited the existence of two highly conserved sequence elements within the catalytic domain to generate PTK-specific degenerate oligonucleotide primers (A. F. Wilks, Proc. Natl. Acad. Sci. USA 86:1603-1607, 1989). By application of the polymerase chain reaction, portions of the catalytic domains of several novel PTKs were amplified. We describe here the primary sequence of one of these new PTKs, JAK1 (from Janus kinase), a member of a new class of PTK characterized by the presence of a second phosphotransferase-related domain immediately N terminal to the PTK domain. The second phosphotransferase domain bears all the hallmarks of a protein kinase, although its structure differs significantly from that of the PTK and threonine/serine kinase family members. A second member of this family (JAK2) has been partially characterized and exhibits a similar array of kinase-related domains. JAK1 is a large, widely expressed membrane-associated phosphoprotein of approximately 130,000 Da. The PTK activity of JAK1 has been located in the C-terminal PTK-like domain. The role of the second kinaselike domain is unknown.
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PMID:Two novel protein-tyrosine kinases, each with a second phosphotransferase-related catalytic domain, define a new class of protein kinase. 184 70

The BCR gene (Groffen et al., 1984) plays a critical role in the pathogenesis of human leukemias that involve the Philadelphia chromosome (Ph1) (Rowley, 1973; Nowell & Hungerford, 1960). Cells containing the Ph1 contain a chimeric gene formed from the fusion of BCR (Collins et al., 1987; Lifshitz et al. 1988) and ABL genes that results from the reciprocal translocation of segments of chromosomes 9 and 22 (Shtivelman et al., 1985). The product of this chimera is a 210 kDa protein, termed P210 BCR-ABL, that possesses an activated tyrosine kinase activity (Konopka et al., 1984; Kloetzer et al., 1985). Studies using long-term marrow culture systems and retrovirus-mediated gene transfer have documented that P210 BCR-ABL can stimulate the growth of immature hematopoietic precursor cell types (McLaughlin et al., 1987; Young & Witte, 1984). We have previously reported that P210 BCR-ABL exists in cytoplasmic complexes in association with a 53 kDa protein termed ph-P53 (Maxwell et al., 1987; Li et al. 1988). Similarly, BCR proteins have been found in cytoplasmic complexes containing ph-P53 in cells lacking the Ph1 (Li et al., 1989). These BCR protein complexes possess an associated ser/thr protein kinase activity. In this same study, we found that P210-containing complexes phosphorylate BCR proteins on tyrosine residues in vitro (Li et al., 1989). We now present results which demonstrate that P210 BCR-ABL is tightly associated with P160 BCR and ph-P53 proteins in cytoplasmic complexes from cells containing the Ph1.
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PMID:P210 BCR-ABL is complexed to P160 BCR and ph-P53 proteins in K562 cells. 214 May 98

Epidermal growth factor (EGF) is a small polypeptide hormone with mitogenic properties in vivo and in vitro. EGF elicits biologic responses by binding to a cell surface receptor which is a transmembrane glycoprotein containing a cytoplasmic protein tyrosine kinase. EGF responses are mediated by ligand binding and activation of this intrinsic protein kinase. The receptor can be phosphorylated by other protein kinases, and this may regulate receptor function. Stimulation of the receptor tyrosine kinase activity by ligand binding must regulate the activity of an as yet undefined molecule(s) responsible for transmitting a mitogenic signal to the nucleus.
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PMID:Epidermal growth factor: the receptor and its function. 255 47

We have examined the sites phosphorylated on acetyl-CoA carboxylase by three protein kinases which have been shown to inactivate the enzyme, i.e. cyclic-AMP-dependent protein kinase, acetyl-CoA carboxylase kinase-2 (ACK2, purified from rat mammary gland) and the AMP-activated protein kinase (formerly called acetyl-CoA carboxylase kinase-3, purified from rat liver). Each protein kinase phosphorylates two out of three sites (termed 1-3) which have been established by amino acid sequencing. The two sites phosphorylated by each kinase can be recovered on separate peptides, TC1 and TC2, derived by combined digestion of the native enzyme by trypsin and chymotrypsin: TC1 = Ser-2Ser(P)-Met-3Ser(P)-Gly-Leu; TC2 = Arg-Met-1Ser(P)-Phe- Cyclic-AMP-dependent protein kinase phosphorylates sites 1 and 2 exclusively, whereas the AMP-activated protein kinase phosphorylates sites 1 and 3, plus at least one other minor site. ACK2 phosphorylates site 1 and, more slowly, an unidentified site(s) within TC1. We have also established the structures of the single major phosphopeptides (T1 and C1 respectively) which are recovered by HPLC after acetyl-CoA carboxylase phosphorylated by cyclic-AMP-dependent protein kinase is digested with trypsin or chymotrypsin alone. T1 is related to TC1, and has the structure: Ser-Ser(P)-Met-Ser-Gly-Leu-His-Leu-Val-Lys. C1 is identical with TC2. We have carried out studies on the correlation of the activity of acetyl-CoA carboxylase with the occupancy of sites 1, 2 and 3 during phosphorylation by each of the three protein kinases. The results suggest that phosphorylation of site 3 is primarily responsible for the large decrease in Vmax produced by the AMP-activated protein kinase, while phosphorylation of site 1 may be primarily responsible for the increase in A0.5 for citrate and more modest depression of Vmax produced by cyclic-AMP-dependent protein kinase and ACK2. Our results emphasize that amino acid sequence information is essential in the unequivocal interpretation of data from phosphopeptide mapping experiments and allow a more complete interpretation of previous data on phosphorylation of acetyl-CoA carboxylase in intact cells. They also open the way to experiments which could establish the physiological roles of these protein kinases in the control of fatty acid synthesis.
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PMID:Identification by amino acid sequencing of three major regulatory phosphorylation sites on rat acetyl-CoA carboxylase. 290 Jan 38

Rat pheochromocytoma (PC12) cells contain specific plasma membrane receptors for both epidermal growth factor (EGF) and nerve growth factor (NGF). Whereas EGF addition to PC12 cells causes a persistent enhancement of proliferation. NGF addition induces a transient stimulation of growth, followed by growth arrest and neuronal differentiation. Despite these differences in biological response, EGF and NGF share a number of early receptor-mediated responses, which are likely te be related to their effect on cell proliferation. In this paper we show that EGF, but not NGF, is able to stimulate the phosphorylation of membrane proteins. In addition, EGF was able to stimulate phosphorylation of a synthetic peptide (RR-SRC) by PC12 membranes in a concentration-dependent manner. Kinetic analysis of the phosphorylation reaction indicated that EGF increased the Vmax from 13 to 70 pmoles/min/mg protein, while no change was observed in Km. Furthermore, EGF was able to stimulate tyrosine phosphorylation of angiotensin I and II, to the same extent as RR-SRC. In contrast no effects of NGF on peptide phosphorylation by PC12 membranes were observed. Cross-linking experiments demonstrated the presence of receptors for both NGF and EGF in PC12 membranes. These different effects of NGF and EGF on activation of membrane-associated protein-kinase activity demonstrate that NGF might be able to stimulate growth transiently without stimulating protein kinase activity.
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PMID:Epidermal growth factor, but not nerve growth factor, stimulates tyrosine-specific protein-kinase activity in pheochromocytoma (PC12) plasma membranes. 300 Apr 61

A variety of eukaryotic viral and cellular proteins possesses an NH2-terminal N-myristoylglycine residue important for their biological functions. Recent studies of the primary structural requirements for peptide substrates of the enzyme responsible for this modification in yeast demonstrated that residues 1, 2, and 5 play a critical role in enzyme: ligand interactions (Towler, D. A., Adams, S. P., Eubanks, S. R., Towery, D. S., Jackson-Machelski, E., Glaser, L., and Gordon J. I. (1987b) Proc. Natl. Acad. Sci. U. S. A. 84, 2708-2812). This was determined by examining as substrates a series of synthetic peptides whose sequences were systematically altered from a "parental" peptide derived from the known N-myristoylprotein bovine heart cyclic AMP-dependent protein kinase (A kinase) catalytic subunit. We have now extended these studies in order to examine structure/activity relationships in the COOH-terminal regions of octapeptide substrates of yeast N-myristoyltransferase (NMT). The interaction between yeast NMT and the side chain of residue 5 in peptide ligands is apparently sterically constrained, since Thr5 is unable to promote the very high affinity binding observed with a Ser5 substitution. A substrate hexapeptide core has been defined which contains much of the information necessary for recognition by this lower eukaryotic NMT. Addition of COOH-terminal basic residues to this hexapeptide enhances peptide binding, while COOH-terminal acidic residues destabilize NMT: ligand interactions. Based on the results obtained from our in vitro studies of over 80 synthetic peptides and yeast NMT, we have identified a number of potential N-myristoylproteins from searches of available protein databases. These include hepatitis B virus pre-S1, human SYN-kinase, rodent Gi alpha, and bovine transducin-alpha. Peptides corresponding to the NH2-terminal sequences of these proteins and several known N-myristoylproteins were assayed using yeast NMT as well as partially purified rat liver NMT. While a number of the synthetic peptides exhibited similar catalytic properties with the yeast and mammalian enzymes, surprisingly, the SYN-kinase, Gi alpha, and transducin-alpha peptides were N-myristoylated by rat NMT but not by yeast NMT. This suggests that either multiple NMT activities exist in rat liver or the yeast and rodent enzymes have similar but distinct peptide substrate specificities.
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PMID:Myristoyl CoA:protein N-myristoyltransferase activities from rat liver and yeast possess overlapping yet distinct peptide substrate specificities. 312 78

A great deal of information has emerged over the past decade regarding the gene structures and corresponding protein products of the cellular and transformation-associated forms of the ABL tyrosine kinase family. Many reports have also detailed the biological effects of these proteins (particularly the viral ABL forms) on a broad range of cell types. However, in spite of all these research efforts, the precise role of the ABL gene in normal and neoplastic growth remains to be determined. To elucidate the mechanism of action of normal and altered ABL proteins, it is imperative to identify their relevant cellular substrates and establish the role of the ABL target proteins in transformation and normal cellular growth. The availability of temperature-sensitive ABL proteins, coupled with the use of sensitive anti-phosphotyrosine antibodies, should be useful in this respect. Purification of enzymatically active, intact forms of the ABL proteins produced in insect cells by employing baculovirus expression vectors should permit direct comparison of the biochemical properties and tertiary structures of the various members of the ABL protein kinase family. Such studies will aid in understanding the nature of the alteration of ABL which results in the activation of its transforming potential. Furthermore, the availability of purified ABL proteins should permit examination of interactions of ABL with other growth-regulatory proteins, such as growth factor receptors. It has been shown that transformation-associated ABL proteins interact with the IL-3, IL-2 and GM-CSF growth-factor pathways. These and other components of the cellular signalling pathways are potential ABL targets. The elucidation of ABL function by a variety of approaches such as those described above will ultimately aid in the development of far-reaching therapeutic treatments for at least two forms of human leukaemia: Ph positive CML and Ph positive ALL.
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PMID:Role of the ABL oncogene tyrosine kinase activity in human leukaemia. 333 51

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