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)

Pulsed field gel electrophoresis was used to construct a long-range map of the normal BCR gene. A single BssHII restriction fragment encompasses all the known exons of the BCR gene (except a small 5' part of exon one). MIuI has one restriction site within the first intron of the BCR gene and another 250 kb downstream. This MIuI fragment contains most of the BCR gene coding sequences apart from the first exon and contains more sequences downstream of the BCR gene than the BssHII fragment. The NarI restriction sites are very close to the BssHII sites in the BCR gene, but they differ in the ABL gene, so that NarI digests could theoretically provide additional information in chronic myeloid leukaemia (CML) patients. This map was used to confirm BCR gene involvement in two CML patients in whom results of conventional Southern blotting of DNA were ambiguous. It was also used in a third patient to demonstrate the presence of a breakpoint apparently outside the BCR gene. Preliminary evidence from the use of PFGE confirms the presence of three BCR-related genes homologous to 3' sequences in the classical BCR gene (BCR-1). These BCR-related genes are located at a considerable distance from BCR-1.
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PMID:Long-range mapping of the normal BCR gene. 164 56

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

Philadelphia chromosome-positive acute lymphoblastic leukaemia (ALL) is most common in adults and is associated with poor prognosis. Since karyotypic identification of the Philadelphia translocation has been hampered by technical difficulties, we used the polymerase chain reaction (PCR) to look for the BCR-ABL rearrangement in stored samples from a selected group of 314 German ALL patients. BCR-ABL transcripts were found in 77 of 179 adults and were restricted to those with B-precursor leukaemias. 55% of adult common ALL patients had BCR-ABL and its presence correlated with poor overall survival and remission duration. Of 135 children with common ALL, 5 (6%) primary cases and 8 (17%) with recurrent neoplasias were PCR-positive. We recommend prospective evaluation of BCR-ABL analysis with PCR in patients with a B-precursor leukaemia.
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PMID:Detection of chimeric BCR-ABL genes in acute lymphoblastic leukaemia by the polymerase chain reaction. 168 8

The Philadelphia chromosome defines chronic myeloid leukemia, and is mostly based on a translocation t(9;22) with a typical BCR-ABL rearrangement which also occurs in so called atypical translocations. The transformation of chronic myeloid leukemia is associated with clonal evolution in 80% of cases. The appearance of an isochromosome 17q unequivocally heralds the onset of a myeloid type of blast crisis. Treatment of Ph-positive CML has still to be considered palliative except for allogeneic bone marrow transplantation. The Philadelphia chromosome is also found in about 20% of patients with acute lymphoblastic leukemia and in about 2% of patients with nonlymphoblastic leukemia. It is associated with a poor prognosis. Molecular and cytogenetic findings help differentiating between de novo acute leukemia and blast crisis of chronic myeloid leukemia.
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PMID:[Cytogenetic and clinical features of Philadelphia chromosome positive leukemias]. 170 14

Phosphotyrosine cannot be detected on normal human ABL protein-tyrosine kinases, but activated oncogenic forms of the human ABL protein are phosphorylated on tyrosine in vivo. Activation of ABL can occur by substitution of the ABL first exon with breakpoint cluster region (BCR) sequences or by deletion of the noncatalytic SH3 (src homology region 3) domain. An alternative mode for the activation of the ABL kinases is hyperexpression at greater than 500-fold over endogenous levels. This is not a consequence of transphosphorylation of the hyperexpressed ABL molecules. ABL proteins translated in vitro lack phosphotyrosine, but tyrosine kinase activity is uncovered after immunoprecipitation and removal of lysate components. The rates of dephosphorylation of ABL and BCR-ABL fusion protein by phosphotyrosine-specific phosphatases are approximately the same. These combined results indicate that inhibition of ABL activity is reversible and suggest that a cellular component interacts noncovalently with ABL to inhibit its autophosphorylation.
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PMID:Evidence for regulation of the human ABL tyrosine kinase by a cellular inhibitor. 171 11

BCR-ABL is a chimeric oncogene implicated in the pathogenesis of Philadelphia chromosome-positive human leukemias. BCR first exon sequences specifically activate the tyrosine kinase and transforming potential of BCR-ABL. We have tested the hypothesis that activation of BCR-ABL may involve direct interaction between BCR sequences and the tyrosine kinase regulatory domains of ABL. Full-length c-BCR as well as BCR sequences retained in BCR-ABL bind specifically to the SH2 domain of ABL. The binding domain has been localized within the first exon of BCR and consists of at least two SH2-binding sites. This domain is essential for BCR-ABL-mediated transformation. Phosphoserine/phosphothreonine but not phosphotyrosine residues on BCR are required for interaction with the ABL SH2 domain. These findings extend the range of potential SH2-protein interactions in growth control pathways and suggest a function for SH2 domains in the activation of the BCR-ABL oncogene as well as a role for BCR in cellular signaling pathways.
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PMID:BCR sequences essential for transformation by the BCR-ABL oncogene bind to the ABL SH2 regulatory domain in a non-phosphotyrosine-dependent manner. 171 71

The expression of 10 protooncogenes has been quantitatively studied in liver of male rats L10 age of 1, 10.5, 22 and 37 months. It was shown that a number of specific mRNA transcripts and, therefore, the levels of expression of protooncogenes C-MYC, C-FOS, N-MYC, HA-RAS, KI-RAS, SIS, ABL, YES, MOS and MET in rat liver were constant during life span. These data are in accordance with resistance of the rat strain L10 to spontaneous hepatocarcinogenesis.
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PMID:[Proto-oncogene expression in the liver of male rats of different age]. 171 16

The interactions between haemopoietic progenitor cells and marrow stromal cells that are essential for the regulation of normal haemopoiesis are defective in chronic phase chronic myeloid leukaemia (CML). The presence of primitive progenitor cells (blast colony-forming cells, Bl-CFC) in the blood of patients with CML is reflected by their reduced capacity to bind to marrow derived stromal layers in vitro. Whereas normal bone marrow Bl-CFC bind irreversibly to cultured stromal layers (and none are found in normal blood), the Bl-CFC in CML bind transiently and then detach. The normal cell adhesion mechanism is partially sensitive to treatment with phosphatidylinositol-specific phospholipase C (Pl-PLC), indicating the participation of a phosphatidylinositol (Pl)-linked structure; however, when CML cells were treated with Pl-PLC it had no effect on progenitor binding. Two other Pl-linked structures, decay-accelerating factor (DAF) and lymphocyte function associated antigen-3 (LFA-3) were normally expressed on CD34 positive CML cells and normally susceptible to Pl-PLC treatment. The treatment of normal cells with Pl-PLC, to mimic the situation in CML, resulted in the indiscriminate and inefficient binding of Bl-CFC to stroma. Moreover, treatment of the normal cells with 5637 conditioned medium (CM), which contains haemopoietic growth factors, also reduced the binding capacity of normal Bl-CFC; 5637CM treatment did not alter the expression of DAF. It is proposed that a Pl-linked cell adhesion molecule (CAM) is deficient in CML as a consequence of the constitutive activation of ABL kinase whilst, in normal cells, CAMs attached in this manner are responsible for efficient adhesion to stroma and are regulated by growth factors.
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PMID:Deficiency of a phosphatidylinositol-anchored cell adhesion molecule influences haemopoietic progenitor binding to marrow stroma in chronic myeloid leukaemia. 171 60

A patient with chronic myelogenous leukemia (CML) associated with pure red cell aplasia (PRCA) is reported. The occurrence of PRCA has been described previously in sporadic cases of Philadelphia chromosome (Ph) positive CML. In this patient, however, the Ph-chromosome was not detected; cytogenetic analysis revealed a t(12;14)(q23;p11) as the sole abnormality. Molecular studies by Southern and PCR analyses showed the rearrangement of the BCR and ABL sequences and expression of the chimeric bcr/abl mRNA, thus confirming the diagnosis of CML. To our knowledge, this is the first report on a case of PRCA associated with Ph negative CML at diagnosis. The possible connection between CML and PRCA is discussed.
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PMID:Pure red cell aplasia in a case of Ph negative BCR/ABL rearranged CML with t(12;14)(q23;p11). 175 63

Joining of the BCR and ABL genes is an essential feature of the group of human leukemias characterized by the Philadelphia chromosome and there is recent evidence that the human BCR-ABL fusion gene induces leukemia in experimental animals. Joining of these two genes is the result of cytogenetic translocation, usually the t(9;22)(q34;q11), but sometimes of more complex translocations involving one or more chromosomes in addition to chromosomes 9 and 22. The leukemic cells of some patients carry the BCR-ABL fusion gene but have an apparently normal karyotype. Recent studies show that these cells conceal complex chromosome rearrangements. Because the BCR-ABL fusion gene appears to be the result of cytogenetic rearrangement in all cases of these leukemias, the causes and mechanism of chromosome rearrangement will be relevant to the development of leukemia in man. We examine mechanisms of chromosome rearrangement and propose that both simple and complex chromosome translocations result from a single, though sometimes complex, interchange event.
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PMID:Complex chromosomal translocations in the Philadelphia chromosome leukemias. Serial translocations or a concerted genomic rearrangement? 175 91

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