Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.3.1.28 (chloramphenicol acetyltransferase)
 5,100 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We isolated genomic clones of two isotypes of human NDP kinase, nm23-H1 and H2. The nm23-H1 and H2 genes located in a tandem array contained 5 exons and most of the splicing sites in the exon-intron junctions of two isotypes were essentially identical. The regulatory elements of nm23-H1 and H2 genes were also analysed. One major and several minor transcriptional initiation sites were detected in the two isotypes by 5' RACE analysis in HeLa cell. We also identified them by means of an RNase protection assay and primer extension analysis. Promoter activities were found in the 5' flanking sequences of the two genes when placed upstream of the chloramphenicol acetyltransferase gene. Transcriptional activities of nm23-H1 and H2 regulatory regions were measured in a series of human cancer lines. The nm23-H1/nm23-H2 gene transcriptional activity ratio varied depending on the cell line. DNA sequencing of these two genes showed that their promoter regions contain distinct binding sites for known transcriptional factors. These studies suggest that the two isotypes of the nm23 genes might be regulated dissimilarly, and in cell type specific manner.
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PMID:Independent and differential expression of two isotypes of human Nm23: analysis of the promoter regions of the nm23-H1 and H2 genes. 893 40

Rat nucleoside diphosphate (NDP) kinase is composed of two isoforms (alpha and beta) encoded by independent genes. The mRNAs are expressed ubiquitously; however, the level of expression is tissue-dependent and is also up- or down-regulated under certain conditions, including growth stimulation, differentiation, and tumor metastasis. To address the regulatory mechanisms of gene expression for the rat NDP kinase major isoform alpha (an nm23-H2/PuF homologue), we identified the transcription initiation sites in detail by RNase protection and 5'-rapid amplification of DNA ends and located the core promoter region by chloramphenicol acetyltransferase assay. The transcripts, initiated from an extraordinarily wide range of sites, were categorized into two groups; one transcribed from an upstream region was spliced in the untranslated region (group 1), whereas the other initiated in the downstream region was not (group 2). RNase protection demonstrated that the group 1 mRNA was the dominant form present in all tissues except heart and skeletal muscle. In situ hybridization revealed cell-specific expression of these mRNA species. Furthermore, they differed in the translational efficiency (the group 2 alpha > beta > the group 1 alpha). These findings suggest that the regulation of the NDP kinase expression at both transcriptional and posttranscriptional steps could be fundamentally governed by the selection of transcription initiation sites.
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PMID:Multiple transcripts for rat nucleoside diphosphate kinase alpha isoform are structurally categorized into two groups that exhibit cell-specific expression and distinct translation potential. 901 67

Transactivating factor PuF which interacts with a nuclease hypersensitive element locates upstream from the c-myc gene. PuF was recently identified as being encoded by nm23-H2/ NDP kinase gene [Postel, E. H., Berberich, S. J., Flint, S. J., and Ferrone, C. A. (1993) Science 261, 428-429]. Here we have studied the correlation of expression between c-myc and nm23 genes in vitro. By a comparative study of the expression of 2 genes in cell lines, no direct correlation of kinetics was found. A plasmid containing the human c-myc fragment (c-myc CAT) was cloned upstream from the bacterial chloramphenicol acetyltransferase (CAT) gene. When the murine melanoma cell line was cotransfected with a nm23-M2/ NDP kinase expression vector and c-myc CAT, CAT activity was elevated. In addition, cell cycle phases in the murine cell lines transfected with nm23/NDP kinase were estimated; an alteration of the cell cycle, prolonged S-phase was found in the cell lines transfected with nm23-M2/NDP kinase, whereas human nm23-H2/NDP kinase did not play a role in transactivating the c-myc gene or in S-phase prolongation in murine cell lines. From these results we conclude that the murine nm23-M2 gene transactivates the c-myc gene and controls the cell cycle, S-phase, indirectly via a cellular cofactor in the murine cell line, which does not work with the human nm23-H2 gene.
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PMID:Transcription effect of nm23-M2/NDP kinase on c-myc oncogene. 938 43