Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P13232 (Interleukin-7)
 580 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mouse fibroblasts resistant to the drug rutamycin were isolated by selectively introducing BrdUrd into the mitochondrial genome of a line of mouse fibroblasts (clone 1 D) lacking a cytoplasmic thymidine kinase enzyme. The ATPase (ATP phosphohydrolase; EC 3.6.1.3) activity of mitochondria isolated from these cells was resistant to rutamycin. The rutamycin-resistant mutants were enucleated with cytochalasin B and fused with mouse A 9 cells resistant to 8-azaguanine and sensitive to rutamycin. Cytoplasmic hybrids, or cybrids, were selected as cells resistant to rutamycin and 8-azaguanine, and appeared at a high frequency. Other fusions between rutamycin-resistant nucleated cells and A 9 produced colonies at a much lower frequency. Finally, fusions between enucleated clone 1 D cells and A 9 cells produced no rutamycin-resistant colonies. These results indicate that rutamycin resistance is a cytoplasmically inherited characteristic in this cell line.
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PMID:Cytoplasmic inheritance of rutamycin resistance in mouse fibroblasts. 14 79

To characterize differences in gene expression between hormone-dependent and hormone-independent mammary carcinoma, we cloned complementary DNAs of genes expressed in a hormone-independent breast carcinoma cell line that were not expressed in a hormone-dependent line. One clone, which was isolated in many copies, coded for the intermediate filament protein vimentin. A complementary DNA clone 1.8 kilobases long included the entire protein-coding region for vimentin. Vimentin was expressed by more than one-half of the hormone-independent breast carcinoma cell lines tested but not by the hormone-dependent cell lines. The cell lines which expressed vimentin expressed only low levels of cytokeratins. The correlation between vimentin expression and more advanced stages of mammary cell transformation was tested in a model system in which immortal, nontumorigenic human mammary epithelial cells or derivative lines transformed with v-ras-H or SV40 T-antigen were found not to express vimentin, whereas a derivative highly tumorigenic cell line transformed by both v-ras-H and T-antigen did express vimentin. Analysis of several other kinds of epithelial carcinoma cell lines showed only rare examples of vimentin expression.
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PMID:Vimentin rather than keratin expression in some hormone-independent breast cancer cell lines and in oncogene-transformed mammary epithelial cells. 247 76

The process of enlargement of the heart due to overload involves a significant reconstitution of the organ including myocytes and intracellular constituents. We demonstrated the distribution of two types of cardiac myosin heavy chains (HC alpha and HC beta) in the human heart using monoclonal antibodies. The ventricle comprised mainly HC beta which has low ATPase activity, whereas the atrium was predominantly composed of HC alpha which has high ATPase activity. We also demonstrated isozymic transition of HC alpha to HC beta in the human atrium and ventricle by hemodynamic overload, regarded as a compensatory mechanism to meet an increased demand in work. To examine the molecular mechanism for the expression of these HCs, we have isolated human HC alpha and HC beta cDNA clones from a fetal heart cDNA library. Comparison of the nucleotide and amino acid sequences deduced from the DNA between these cDNA clones showed 91 and 96% homology, respectively. Using HC alpha and HC beta gene-specific sequences, we demonstrated that the transition of HC alpha to HC beta in the overloaded human heart was induced by the expression of HC beta-gene. To determine the role of cellular oncogenes in the process of cardiac growth and hypertrophy, we examined the expression pattern of eight cellular oncogenes during the developmental stage and pressure-overloaded hypertrophy of the rat heart by Northern blot analysis. c-fos, c-myc and c-Ha-ras were expressed in the heart in response to pressure overload and in a stage-specific manner, suggesting that these cellular oncogenes participate in the normal developmental process and hypertrophy of the heart. We also cloned the genes of which expression level was rapidly changed by pressure overload by differential hybridization technique. Our results suggest that clone 4 may be involved in the molecular mechanism for the development of cardiac hypertrophy due to overload.
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PMID:Molecular adaptation to pressure overload in human and rat hearts. 253 42