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)

Sheep erythrocytes were pretreated with concanavalin A (Con-A-SRC), or glutaraldehyde (G-SRC), or specific rabbit immunoglobulin G (IgG-SRC), or specific rabbit immunoglobulin M and complement (C-SRC). Each erythrocyte type was made to adhere to rat peritoneal cells and adhesion was measured; binding decreased as follow: conA-SRC greater than IgG-SRC greater than less than G-SRC greater than C-SRC Peritoneal cell-erythrocyte complexes were then submitted to a laminar shear flow, and resistance of binding was assayed. Binging strength decreased in the following order: G-SRC greater than C-SRC greater than IgG-SRC greater than ConA-SRC Cell suspensions were incubated at 37 degrees, and phagocytosis was measured. Ingestion decreased in the following order: G-SRC greater than IgG-SRC greater than C-SRC greater than ConA-SRC It is concluded that: Binding strength may be of importance in triggering phagocytosis; when immunocytoadherence is studied, two independent parameters should be considered: binding and binding strength. This report describes a new method that may allow discrimination between different cell subpopulations of similar binding specificities.
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PMID:Dependence of phagocytosis on strength of phagocyte-particle interaction. 68 Aug 1

We describe the isolation and cDNA sequence of a novel human gene, which is distinct from all known members of the human src family of proto-oncogenes. In contrast to these, an autophosphorylation site corresponding to Tyr416, as well as the equivalent of Tyr527 in p60c-src, are missing in the amino acid (aa) sequence deduced from this gene. Furthermore, no N-terminal myristylation site is found. Our human clone is 98% identical at the aa level to a gene which was isolated independently from neonatal rat brain and was termed csk for c-src kinase. We, therefore, propose to designate the present human gene CSK. In Northern blot experiments, CSK was found to be expressed in human lung and macrophages. Due to its extreme conservation across species barriers, the CSK product is likely to exert important regulatory functions. On the basis of its expression in tissues, not typically expressing high c-src levels, it can be assumed that its regulatory role is more general and may also involve other tyrosine kinases.
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PMID:Isolation and characterization of a human gene that encodes a new subclass of protein tyrosine kinases. 137 89

We have previously reported the cloning of a novel cytoplasmic tyrosine kinase, CSK. This tyrosine kinase has been shown to downregulate the tyrosine kinase activity of the c-src oncoprotein through tyrosine phosphorylation of the c-src carboxyl terminus. Cell transformation by src oncoproteins is caused by several oncogenic mechanisms, which interfere with this phosphorylation. The CSK gene could therefore potentially function as an antioncogene. We have here mapped the CSK gene to 15q23----q25 by in situ hybridization.
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PMID:The c-src tyrosine kinase (CSK) gene, a potential antioncogene, localizes to human chromosome region 15q23----q25. 137 9

Protein tyrosine kinases (PTKs) are implicated in the control of cell growth by virtue of their frequent appearance as products of retroviral oncogenes, as intracellular signal transducers, and as growth factor receptors or components thereof. The knowledge of the structure and sequence of family genes encoding PTKs is still limited. To date, the complete genomic structure of human src family members is only available for the C-FGR gene (encoding p55 Fgr, PTK). Sequence analysis and characterization of the intron/exon organization of the human HCK gene, encoding a hemopoietic-specific cell PTK of the src-related family, revealed a length of over 16 kb for the seven 3'-exons. All intron/exon splice junctions agree with the GT/AG rule. In each case where a boundary occurs at a Gly codon, GGG or GGA, the triplet is split between the first and second nucleotide (nt). A total of eight complete and one partial Alu repeats were identified within the introns. The nt sequence of the genomic clones resolves existing discrepancies among two published sequences of HCK cDNAs. Human HCK, C-SRC (encoding p60 Src PTK), C-FGR and LCK (encoding p56 Lck, PTK) genes thus share very similar exon/intron structures for the conserved exons. These results provide additional evidence that the different PTKs of the src-like family most likely arose by duplication of an ancestral src-like gene.
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PMID:The genomic locus of the human hemopoietic-specific cell protein tyrosine kinase (PTK)-encoding gene (HCK) confirms conservation of exon-intron structure among human PTKs of the src family. 157 49

In situ hybridization of the pHul-c-src probe to metaphase cells from three normal donors and two leukemic patients showed significant labeling in the proximal region of the long arm of chromosome 20q, with modal peaks of grains consistently at band 20q11.2. A secondary peak of grains was detected in the region 20q13.2-qter, the localization of SRC suggested by previous in situ studies. The exact localization of SRC is important for understanding the del(20q) chromosomal abnormality in myeloid neoplasias. Chromosome in situ hybridization and genomic studies showed loss of one allele of SRC in two patients with the deletion (20q). These results differ from previously published findings and suggest heterogeneity of the breakpoint at 20q11.2 in interstitial deletions of 20q, which characterize myeloid disorders.
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PMID:Localization of the SRC oncogene to chromosome band 20q11.2 and loss of this gene with deletion (20q) in two leukemic patients. 250 51

The C-SRC, C-YES, and FYN genes encode three closely related tyrosine protein kinases that are expressed in human neural tissues. A unique form of the C-SRC gene has been demonstrated to be expressed in avian and murine brain tissues as the result of alternative splicing between the third and fourth exons. This neuronal-specific splicing event adds to the C-SRC mRNA an 18 base pair exon capable of encoding the same six amino acids in both avian and murine neural tissues. The C-YES and FYN genes share with C-SRC similar exon-intron boundaries and a high degree of amino acid sequence homology in the 3/4 exon coding region. However, potential alternative splicing of the C-YES and FYN genes in this region has not been previously investigated. In this study we have compared the expression of C-SRC, C-YES, and FYN RNAs in human lung, liver, brain, and placenta tissues and prepared cDNA clones spanning exons 3 and 4 for each of these genes from the different tissues. Sequence analysis of these cDNA clones revealed that the splicing patterns for the FYN and C-YES genes were the same among the various tissues, whereas C-SRC cDNAs isolated from brain contained 18 additional bases with the capacity to code for the same six amino acids present in the neural-specific forms of avian and murine pp60c-src.
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PMID:Neuron-specific splicing of C-SRC RNA in human brain. 268 3

We have isolated cDNAs representing a previously unrecognized human gene that apparently encodes a protein-tyrosine kinase. We have designated the gene as HCK (hemopoietic cell kinase) because its expression is prominent in the lymphoid and myeloid lineages of hemopoiesis. Expression in granulocytic and monocytic leukemia cells increases after the cells have been induced to differentiate. The 57-kilodalton protein encoded by HCK resembles the product of the proto-oncogene c-src and is therefore likely to be a peripheral membrane protein. HCK is located on human chromosome 20 at bands q11-12, a region that is affected by interstitial deletions in some acute myeloid leukemias and myeloproliferative disorders. Our findings add to the diversity of protein-tyrosine kinases that may serve specialized functions in hemopoietic cells, and they raise the possibility that damage to HCK may contribute to the pathogenesis of some human leukemias.
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PMID:Identification of a human gene (HCK) that encodes a protein-tyrosine kinase and is expressed in hemopoietic cells. 349 23

An src/yes-related novel gene named syn (SYN in human gene nomenclature) has been identified in the human genome on chromosome 6 and characterized by molecular cloning. Nucleotide sequence analysis of cDNA clones showed that the c-syn gene could encode a protein-tyrosine kinase that is very similar in primary structure to the v-yes and human c-src proteins. A 2.8-kilobase transcript of the c-syn gene, which differs in size from those of the c-yes, c-src, and c-fgr genes, was observed in various cell types. These results show that syn is a new member of the tyrosine kinase oncogene family.
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PMID:yes-related protooncogene, syn, belongs to the protein-tyrosine kinase family. 352 30

Adhesion of cells to the extracellular matrix leads to an increase in the tyrosine phosphorylation of a specific set of proteins, three of which have now been identified as the focal adhesion proteins pp125FAK, paxillin and tensin. In addition, we have previously noted the adhesion-induced tyrosine phosphorylation of a fourth protein, with an apparent molecular mass of 130. As in the case of FAK, paxillin and tensin, a 130 kDa protein is also found to be highly tyrosine phosphorylated in Rous sarcoma virus (RSV)-transformed cells. This protein forms a stable complex with pp60src and is directly phosphorylated by activated forms of c-src. Using a monoclonal antibody (mAb 4F4) specific for the src-associated p130 we show that p130 is also phosphorylated in response to cell adhesion. Immunoprecipitation of p130 followed by an anti-phosphotyrosine immunoblot revealed that adhesion of rat embryo fibroblasts (REF52) to fibronectin (FN) led to a significant increase in the phosphotyrosine content of p130. Furthermore, a comparison of cell lysates before and after immunoprecipitation confirmed the absence of tyrosine phosphorylated p130 from lysates immunoprecipitated with mAb 4F4. Immunofluorescence staining of REF52s revealed that p130 is found in focal adhesions as well as along stress fibers in a pattern reminiscent of that exhibited by alpha-actinin. In addition, in many cells, we found significant staining in the nucleus, but evidence is presented that the nuclear staining is not due to tyrosine phosphorylated p130. Finally, unlike pp125FAK, p130 does not appear to be itself a kinase as evidence by immune-complex kinase assays carried out in the presence or absence of exogenous substrates.
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PMID:Adhesion-induced tyrosine phosphorylation of the p130 src substrate. 754 55

The activation of src-related tyrosine kinases following IL-3 stimulation was examined in 32Dcl3 cells. Three src-related tyrosine kinases were activated following IL-3 stimulation: fyn, hck, and lyn. 32Dcl3 cells were transfected with retroviral vectors expressing each of these kinases and independent clones overexpressing each kinase were isolated. In cells overexpressing either fyn or hck, IL-3 stimulated a rapid increase in catalytic activity, which remained elevated longer compared with the kinetics observed in parental 32Dcl3 cells. An increase in the number of tyrosine-phosphorylated proteins in the presence and absence of IL-3 stimulation was observed in cells overexpressing fyn or hck. Transfection of 32Dcl3 cells with a retroviral vector encoding lyn also resulted in an elevated level of kinase activity, although the increase was not as dramatic as that observed with fyn or hck. Consistent with observations in parental 32Dcl3 cells, a high basal level of lyn kinase activity was observed in unstimulated lyn-transfected cells and IL-3 stimulation resulted in an approximate threefold increase in kinase activity. Overexpression of c-src in 32Dcl3 did not result in IL-3-stimulated activation of c-src, indicating specificity for fyn, hck, and lyn. While the overexpression of fyn, hck, or lyn in 32Dcl3 cells resulted in increased kinase activity and IL-3 stimulated tyrosine phosphorylation, it did not render the cells more sensitive to IL-3. These results suggests that in addition to the JAK2 tyrosine kinase, src-related kinases may play a significant role in signal transduction by cytokine receptors.
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PMID:Activation of src-related tyrosine kinases by IL-3. 763 26

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