Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: DrugBank:EXPT01586 (G418)
 2,237 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Despite the intensive study of both cellular transformation and src-family protein-tyrosine kinases, there have been no direct comparisons of transforming potency for normal members of this gene-family. In this study, the focus-forming activity of normal c-src, fyn, and lck cDNAs were compared in NIH 3T3 cell transfection assays. Focus formation was studied quantitatively, and individual foci were analyzed for phosphotyrosine content and expression of appropriate translational products. Each foci arising from c-src transfectants had a marked increase in phosphotyrosine content, and the majority of these foci expressed a c-src protein with an aberrant carboxyl terminus. Foci derived from lck transfectants also had a marked increase in phosphotyrosine content, and some foci expressed a lck protein with an aberrant carboxyl terminus. In contrast, foci from fyn-transfected cells were not distinguished from G418-selected mass cultures in terms of total phosphotyrosine content or expression of p59fyn. These studies support the previously published concept that overexpression of the normal fyn protein contributes to focus formation in transfected NIH 3T3 cells but suggest that the focus-forming activity observed after c-src or lck transfections is frequently attributable to mutational events. Because lck mutations have not been previously described in transformed foci, we characterized the lck transcript expressed in two foci and identified a novel point mutation that encodes a lck protein with increased in vivo kinase and focus-forming activity.
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PMID:Comparison of src-family cDNAs reveals distinct mechanisms underlying focus formation in transfected fibroblasts. 138 16

To determine the potential role of pp60c-src in polyomavirus-transformed cells, we constructed a recombinant plasmid with the mouse metallothionein-I promoter upstream of a src gene in an anti-sense orientation. We cotransfected this plasmid into middle tumor antigen-transformed FR3T3 cells with a plasmid containing the neomycin resistance gene, and G418 resistant colonies were selected. Analysis of these cells for pp60c-src expression revealed that 50 of the 200 cellular clones screened were found to have decreased levels of c-src expression when compared with the parental middle tumor antigen-transformed cells. Three independent clones which transcribed the expected 3.6-kilobase src complementary RNA and had levels of pp60c-src kinase activity comparable to that of normal FR3T3 cells were further analyzed. In the presence of Cd2+, these clones grew significantly slower in monolayer cultures than either the parental transformed cells (FR18-1) or FR18-1 cells transfected with the neomycin resistance gene alone. The morphology of these clones in the presence of Cd2+ was distinct from that of either the parental FR18-1 cells or normal FR3T3 cells. The clones expressing the complementary src RNA were found to form fewer colonies in soft agar, form fewer foci on monolayers of normal rat cells, and form tumors more slowly following injection into syngenic rats when compared with parental FR18-1 cells. The results of these studies suggest that the level of pp60c-src kinase activity affects the growth characteristics and transformation properties of polyoma virus-transformed rat cells.
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PMID:Regulation of pp60c-src synthesis by inducible RNA complementary to c-src mRNA in polyomavirus-transformed rat cells. 243 Dec 89

c-Src-null mutants have not provided a full understanding of the cellular functions of c-Src, reflecting the functional redundancy among Src family members. c-Src is phosphorylated by cyclin-dependent kinase 1 (Cdk1) and Cdk5 at Ser75 in the unique amino terminal c-Src-specific domain. The specific roles of c-Src may be assessed by establishing mouse embryonic stem (ES) cells homozygous for a point mutation at Ser75. Mammalian homozygous cultured cells with a point mutation, however, have not yet been produced by gene targeting. Here we show an efficient procedure for producing ES cell clones bearing a homozygous Ser75 to Asp mutation in the c-src gene. This procedure was developed by combining two previously reported strategies: our procedure for introducing a point mutation into one allele with no exogenous sequence, and the high-geneticin (G418) selection procedure for introducing a mutation into both alleles. The mutant clones expressed the same levels of c-Src protein and autophosphorylation activity as wild-type cells, but the mutant c-Src was not phosphorylated on Ser75 during mitosis. This procedure is feasible for generating cells homozygous for a subtle mutation in most genes, and is expected to be applicable to other somatic cell lines.
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PMID:Production of mouse ES cells homozygous for Cdk5-phosphorylated site mutation in c-Src alleles. 1280 6