EC:2.7.10.1 - FACTA Search

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Query: EC:2.7.10.1 (ERK)
95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mitogen-activated protein (MAP) kinases have been proposed to play a critical role in receptor tyrosine kinase (RTK)-mediated signal transduction pathways. Although genetic and biochemical studies of RTK pathways in Caenorhabditis elegans, Drosophila melanogaster and mammals have revealed remarkable similarities, a genetic requirement for MAP kinases in RTK signaling has not been established. During retinal development in Drosophila, the sevenless (Sev) RTK is required for development of the R7 photoreceptor cell. Components of the signal transduction pathway activated by Sev in the R7 precursor include proteins encoded by the gap1, drk, Sos, ras1 and raf loci. In this report we present evidence that a Drosophila MAP kinase, ERK-A, is encoded by the rolled locus and is required downstream of raf in the Sev signal transduction pathway.
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PMID:The Drosophila rolled locus encodes a MAP kinase required in the sevenless signal transduction pathway. 815 2

Flt3 is a receptor tyrosine kinase (RTK) structurally related to the CSF-1R encoded by the c-fms locus, Kit and the PDGFR which is restricted in its expression to hematopoietic precursor populations and several distinct cell types within the central nervous system. Although the ligand for Flt3 has recently been identified, the developmental function of Flt3 within these tissues has not yet been described. In order to examine the signalling properties of this receptor, we previously constructed a chimeric molecule containing the extracellular domain of CSF-1R fused to the transmembrane and cytoplasmic domain of mouse Flt3 (FF3). The ability of the FF3 to directly associate with or tyrosine phosphorylate specific cytoplasmic signalling molecules in vivo was examined. GAP, Vav, Shc, and to a lesser extent PLC gamma become tyrosine-phosphorylated but no in vivo association with the receptor was detectable. FF3 associates with PI3K activity and the SH2 domains of p85 and Grb-2. Phosphopeptide competition experiments suggest that the PI3K binding site is located outside of the kinase insert in the carboxy tail of the receptor.
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PMID:Substrate specificities and identification of a putative binding site for PI3K in the carboxy tail of the murine Flt3 receptor tyrosine kinase. 818 74

We are interested in the molecular mechanisms that are involved in the development of the vascular system. In order to respond to morphogenetic and mitogenic signals, endothelial cells must express appropriate receptors. To characterize endothelial cell-specific receptors, we have concentrated on receptor tyrosine kinases, because several lines of evidence suggested the importance of controlled phosphotyrosine levels in endothelial cells. A strategy based on PCR amplification using degenerate oligonucleotides and mouse brain capillaries as mRNA source, led to the identification of a novel receptor tyrosine kinase, which we designated tie-2. In situ hybridization using a tie-2-specific probe revealed an interesting spatial and temporal expression pattern. The gene was expressed specifically in the endothelial lineage. tie-2 transcripts were present in endothelial cell precursors (angioblasts) and also in endothelial cells of sprouting blood vessels throughout development and in all organs and tissues so far examined. tie-2 was down-regulated in the adult. Because of the unusual combination of immunoglobulin, EGF-like and fibronectin type III domains in the extracellular portion of tie-2 which is shared by TEK and tie, these molecules may be considered members of a new family of receptor tyrosine kinases. Signal transduction via this new class of tyrosine kinases could lead to a better understanding of the molecular mechanisms of blood vessel formation.
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PMID:Expression of tie-2, a member of a novel family of receptor tyrosine kinases, in the endothelial cell lineage. 818 50

We have recently described a human receptor tyrosine kinase (hek) that is expressed by some pre-B and thymic T cell lines, but is not detectable on normal adult human tissues. Gene cloning studies established that hek is a new member of the EPH family of receptor tyrosine kinases. The expression of hek may normally be developmentally regulated and inappropriate expression may contribute to oncogenesis. In the present study, we have used Southern blot analysis of somatic cell hybrids and fluorescence in situ hybridization to localize the hek gene to human chromosome region 3p11.2. Karyotype analysis of the cell lines that over-express hek showed no cytogenetically visible abnormality involving the hek locus.
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PMID:Localization of a human receptor tyrosine kinase (ETK1) to chromosome region 3p11.2. 818 38

To identify the novel receptor tyrosine kinases (RTKs) critical to the proliferation of hematopoietic stem cells, we performed polymerase chain reaction-based cloning from highly purified murine hematopoietic stem cells. Lineage marker-negative, c-KIT-positive, and Ly6A/E- or Sca-1-positive (Lin-c-KIT+Sca-1+) cells were sorted by a fluorescence-activated cell sorter. Two sets of degenerate oligonucleotide primers were directed to the conserved sequences of the catalytic domain, and were used to amplify cDNAs that encode protein tyrosine kinases (PTKs). One hundred cDNA clones were sequenced and 8 RTKs were identified, as well as 12 non-RTKs and 2 serine/threonine kinases. Sixteen cDNAs were identical to the known kinase genes (PKC beta, JAK-1, JAK-2, TYK-2, HCK, FGR, FYN, BLK, c-FES, FER, c-ABL, c-KIT, FLK-1, FLK-2, IGF1R, and ECK). Six novel cDNA sequences (stk series) were identified. However, three of them turned out to be BPK, RYK, and TEK. The remaining three showed high homology to S6 kinase II, JAK-2, and v-SEA/c-MET, respectively. Characterization of full-length cDNA sequence of the v-SEA/cMET-related gene showed that this was a novel RTK gene and we named this gene STK (stem cell-derived tyrosine kinase). We identified two distinct forms of STK cDNA; the short one encoded a putative truncated protein that lacked most of the extracellular domain. STK was expressed at various stages of hematopoietic cells, including stem cells, but we could not detect any apparent expression in other adult tissues. The expression of the truncated form of mRNA was more predominant than that of the complete form. STK was assigned by fluorescent in situ hybridization to the R-positive F1 band of chromosome 9, the same region to which hepatic growth factor-like protein has been assigned. Characterization of these PTKs, including STK, will be helpful to elucidate the molecular mechanism of the growth regulation of hematopoietic stem cells.
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PMID:Molecular cloning of a novel receptor tyrosine kinase gene, STK, derived from enriched hematopoietic stem cells. 819 52

A method for simultaneous detection of fluorescence in situ hybridization of DNA probes and high resolution fluorescent R banding is described. Human lymphocytes were stimulated with phytohemagglutinin and synchronized using a fluorouracil block followed by exposure to bromodeoxyuridine and Hoechst 33258 prior to harvest. Metaphase preparations were treated with Hoechst 33258 and exposed to UV light. Thereafter they were incubated in sodium phosphate buffer and dried prior to in situ hybridization with a biotin-labelled centromere-specific alpha-satellite DNA probe for chromosome 1 (pUCl.77) and two digoxigenin-labelled probes, i.e., a PCR-generated chromosome 8-specific alphoid probe (#8) and a cosmid probe for FLT4 gene on 5q33-qter (class III receptor tyrosine kinase). Hybridization signals were detected by an indirect immunofluorescence method using fluorescein isothiocyanate. The chromosomes were counterstained with propidium iodide and 4',6-diamidino-2-phenylindole dihydrochloride. This simple method allows unambiguous chromosome band identification simultaneously with detection of the hybridized probes.
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PMID:Simultaneous detection of high-resolution R-banding and fluorescence in situ hybridization signals after fluorouracil-induced cellular synchronization. 824 58

The growth factor receptors expressed on endothelial cells are of special interest because of their potential to program endothelial cell growth and differentiation during development and neovascularization in various pathological states, such as wound healing and angiogenesis associated with tumorigenesis. Vascular endothelial growth factor ([VEGF] also known as vascular permeability factor) is a potent mitogen and permeability factor, which has been suggested to play a role in embryonic and tumor angiogenesis. The newly cloned FLT4 receptor tyrosine kinase gene encodes a protein related to the VEGF receptors FLT1 and KDR/FLK-1. We have here studied the expression of FLT4 and the other two members of this receptor family in human fetal tissues by Northern and in situ hybridization. These results were also compared with the sites of expression of VEGF and the related placenta growth factor (PlGF). Our results reveal FLT4 mRNA expression in vascular endothelial cells in developing vessels of several organs. A comparison of FLT4, FLT1 and KDR/FLK-1 receptor mRNA signals shows overlapping, but distinct expression patterns in the tissues studied. Certain endothelia lack one or two of the three receptor mRNAs. These data suggest that the receptor tyrosine kinases encoded by the FLT gene family may have distinct functions in the regulation of the growth/differentiation of blood vessels.
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PMID:The related FLT4, FLT1, and KDR receptor tyrosine kinases show distinct expression patterns in human fetal endothelial cells. 824 83

Partial cDNAs of the human TYRO3 gene, encoding a putative receptor tyrosine kinase, and its processed pseudogene (TYRO3P) were cloned from human teratocarcinoma cell, bone marrow and melanocyte cDNA libraries. The tyrosine kinase homologous domains of TYRO3 and TYRO3P were sequenced and compared with each other and with the mouse TYRO3 gene. Abundant levels of the 4.2-kb TYRO3 mRNA were detected in human brain, and lower levels in other human tissues. TYRO3 and TYRO3P were both assigned to human chromosome 15q14-q25 by analysis of DNAs from somatic cell hybrids.
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PMID:The human TYRO3 gene and pseudogene are located in chromosome 15q14-q25. 826 88

Previously, we identified an amplified gene in a stomach cancer cell line, KATO-III, and designated it K-sam. This gene was later found to be identical with a gene for a receptor tyrosine kinase, bek/FGFR2. One of the characteristics of the K-sam gene is structural diversity of its transcripts; K-sam complementary DNA (cDNA) cloned from human brain (K-sam-I) has a completely different sequence at the third extracellular immunoglobulin-like domain as compared to that of the K-sam cDNA derived from KATO-III cells (K-sam-II). Recent study has revealed that this difference signifies a differential ligand affinity; the receptor encoded by the K-sam-I cDNA has a high affinity for basic fibroblast growth factor (bFGF), while the K-sam-II cDNA corresponds to a receptor with the high affinity for keratinocyte growth factor (KGF). Reverse transcription-polymerase chain reaction and RNA blot analysis showed that the K-sam-II-type transcript was present in carcinoma cell lines but not in any of the sarcoma cell lines examined. The K-sam-I-type transcript was expressed in both carcinoma and sarcoma cell lines. Furthermore, KGF enhanced the DNA synthesis of the esophageal cancer cells, TE-1, in a dose-dependent manner, while the effect of bFGF was not substantial. In contrast, the glioblastoma cell line, A-172, that expressed the bFGF receptor showed a mitogenic response to bFGF but not to KGF. These data suggest that KGF is a growth factor used preferentially in cancer cells, and this preference is based on the presence of the K-sam-II-type receptor in carcinoma cells but not in sarcoma cells due to alternative splicing.
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PMID:Preferential expression of the third immunoglobulin-like domain of K-sam product provides keratinocyte growth factor-dependent growth in carcinoma cell lines. 827 90

Hepatocyte Growth Factor (HGF) and Scatter Factor (SF) are identical glycoproteins secreted by cells of mesodermal origin. The factor has several activities on epithelial cells, including mitogenesis, dissociation of epithelial sheets, stimulation of cell motility, and promotion of matrix invasion. HGF is the ligand for p190MET, the receptor tyrosine kinase encoded by the MET proto-oncogene. This was proved by HGF binding to immunopurified p190MET, chemical cross-linking of radiolabelled ligand, HGF-induced tyrosine phosphorylation of p190MET, and reconstitution of high-affinity binding sites for HGF into insect cells infected with a recombinant baculovirus carrying the human MET cDNA. p190MET is a 190 kDa heterodimer of two (alpha beta) disulfide-linked protein subunits. The alpha subunit is heavily glycosylated and extracellular. The beta subunit bears an extracellular portion involved in ligand binding, a membrane spanning segment and a cytoplasmic tyrosine kinase domain with phosphorylation sites regulating its activity. Both subunits originate from glycosylation and proteolytic cleavage of a common precursor of 170 kDa. Alternative post-transcriptional processing originates two truncated Met proteins, endowed with ligand binding activity, lacking the cytoplasmic kinase domain of the beta subunit. One form is soluble and released from the cells. HGF binding triggers tyrosine autophosphorylation of the receptor beta subunit in intact cells. Autophosphorylation upregulates the kinase activity of the receptor, increasing the Vmax of the phosphotransfer reaction. The major phosphorylation site has been mapped to Tyr1235. Negative regulation of the receptor kinase activity occurs through distinguishable pathways involving protein kinase C activation or increase in the intracellular Ca2+ concentration. Both lead to the serine phosphorylation of a unique phosphopeptide of the receptor and to a decrease in its kinase activity. Receptor autophosphorylation also triggers the signal transduction pathways inside the target cells. The phosphorylated receptor associates ras GAP, phospholipase C-gamma, and src-related tyrosine kinase in vitro; Phosphatidylinositol 3-kinase, in vitro and in vivo, indicating that the generation of the D-3 phosphorylated inositol lipids is involved in effecting the motility and/or the growth response to HGF. The p190MET HGF receptor is expressed in several epithelial tissues and it is often overexpressed in neoplastic cells. In some tumors of the gastrointestinal tract the Met tyrosine kinase is constitutively activated, either by overexpression of the amplified MET oncogene or by lack of cleavage of the receptor precursor, due to defective post-translational processing.
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PMID:Structure, biosynthesis and biochemical properties of the HGF receptor in normal and malignant cells. 838 Jul 35

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