Impact of 9-(2-phosphonylmethoxyethyl)adenine on (deoxy)ribonucleotide metabolism and nucleic acid synthesis in tumor cells.
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Following exposure to 9-(2-phosphonylmethoxyethyl)adenine (an inhibitor of the cellular DNA polymerases alpha, delta and epsilon), human erythroleukemia K562, human T-lymphoid CEM and murine leukemia L1210 cells markedly accumulated in the S phase of the cell cycle. In contrast to DNA replication, RNA synthesis (transcription) and protein synthesis (mRNA translation) were not affected by 9-(2-phosphonylmethoxyethyl)-adenine. The ribonucleoside triphosphate pools were slightly elevated, while the intracellular levels of all four deoxyribonucleoside triphosphates were 1.5-4-fold increased in 9-(2-phosphonylmethoxyethyl)adenine-treated K562, CEM and L1210 cells. The effect of 9-(2-phosphonylmethoxyethyl)adenine on de novo (thymidylate synthase-mediated) and salvage (thymidine kinase-mediated) dTTP synthesis was investigated using radio-labelled nucleoside precursors. The amount of thymidylate synthase-derived dTTP in the acid soluble pool was 2-4-fold higher in PMEA-treated than in untreated K562 cells, which is in accord with the 3-4-fold expansion of the global dTTP level in the presence of 9-(2-phosphonylmethoxyethyl)adenine. Strikingly, 2-derived dTTP accumulated to a much higher extent (i.e. 16-40-fold) in the soluble dTTP pool upon 9-(2-phosphonylmethoxyethyl)adenine treatment. In keeping with this finding, a markedly increased thymidine kinase activity could be demonstrated in extracts of 9-(2-phosphonylmethoxyethyl)adenine-treated K562 cell cultures. Also, in the presence of 200 microM 9-(2-phosphonylmethoxyethyl)adenine, 14-fold less thymidylate synthase-derived but only 3-fold less thymidine kinase-derived dTTP was incorporated into the DNA of the K562 cells. These data show that thymidine incorporation may be inappropriate as a cell proliferation marker in the presence of DNA synthesis inhibitors such as 9-(2-phosphonylmethoxyethyl)adenine. Our findings indicate that 9-(2-phosphonylmethoxyethyl)adenine causes a peculiar pattern of (deoxy)ribonucleotide metabolism deregulation in drug-treated tumor cells, as a result of the metabolic block imposed by the drug on the S phase of the cell cycle. (+info)
The chloroplast infA gene with a functional UUG initiation codon.
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All chloroplast genes reported so far possess ATG start codons and sometimes GTGs as an exception. Sequence alignments suggested that the chloroplast infA gene encoding initiation factor 1 in the green alga Chlorella vulgaris has TTG as a putative initiation codon. This gene was shown to be transcribed by RT-PCR analysis. The infA mRNA was translated accurately from the UUG codon in a tobacco chloroplast in vitro translation system. Mutation of the UUG codon to AUG increased translation efficiency approximately 300-fold. These results indicate that the UUG is functional for accurate translation initiation of Chlorella infA mRNA but it is an inefficient initiation codon. (+info)
Infrequent translation of a nonsense codon is sufficient to decrease mRNA level.
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In many organisms nonsense mutations decrease the level of mRNA. In the case of mammalian cells, it is still controversial whether translation is required for this nonsense-mediated RNA decrease (NMD). Although previous analyzes have shown that conditions that impede translation termination at nonsense codons also prevent NMD, the residual level of termination was unknown in these experiments. Moreover, the conditions used to impede termination might also have interfered with NMD in other ways. Because of these uncertainties, we have tested the effects of limiting translation of a nonsense codon in a different way, using two mutations in the immunoglobulin mu heavy chain gene. For this purpose we exploited an exceptional nonsense mutation at codon 3, which efficiently terminates translation but nonetheless maintains a high level of mu mRNA. We have shown 1) that translation of Ter462 in the double mutant occurs at only approximately 4% the normal frequency, and 2) that Ter462 in cis with Ter3 can induce NMD. That is, translation of Ter462 at this low (4%) frequency is sufficient to induce NMD. (+info)
Effect of rev on the cytoplasmic localization of intron-containing human immunodeficiency virus type 1 RNA.
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Human immunodeficiency virus type 1 (HIV-1) proteins are expressed from both intron-containing and completely spliced RNAs. Rev, an HIV-1 regulatory protein, is necessary for the expression of intron-containing RNAs. The effect of Rev on the subcellular localization of intron-containing HIV-1 RNA was examined by in situ RNA hybridization. In the presence of Rev, intron-containing HIV-1 RNA accumulated at the nuclear membrane and within the cytoplasm of transfected cells. In the absence of Rev, intron-containing HIV-1 RNA accumulated within the nucleus. In approximately 20% of the cells transfected in the absence of Rev, intron-containing HIV-1 RNA was also found in the cytoplasm. Differences in the subcytoplasmic localization of intron-containing HIV-1 RNA in the presence and absence of Rev were not observed using in situ RNA hybridization. To determine the effect of Rev on RNA localization within the cytoplasm, an extensive fractionation protocol involving both hypotonic and detergent lysis was used. In the presence of Rev, 40.9 +/- 4.6% of the cytoplasmic intron-containing HIV-1 RNA was released by hypotonic lysis. A similar fractionation profile was seen for several other translated viral and cellular RNAs. However, in the absence of Rev, only 16.5 +/- 5.1% of the cytoplasmic intron-containing HIV-1 RNA was released on hypotonic lysis (P < 0. 005). Thus the cytoplasmic fractionation pattern of this RNA was altered in the absence of Rev. (+info)
A series of tobacco mosaic virus (TMV)-based hybrid vectors for transient gene expression were constructed with similar designs but differing in the source of heterologous tobamovirus sequence: Odontoglossum ringspot virus, tobacco mild green mosaic virus variants U2 and U5, tomato mosaic virus, and sunn-hemp mosaic virus. These vectors contained a heterologous coat protein subgenomic mRNA promoter and coat protein open reading frame (ORF) and either TMV or heterologous 3' nontranslated region. The foreign ORF, from the jellyfish green fluorescent protein (GFP) gene, was transcribed from the native TMV coat protein subgenomic mRNA promoter, which extended into the coat protein ORF. The presence of an in-frame stop codon within the GFP mRNA leader and the choice of sequence of GFP ORFs substantially affected translational efficiency. However, the major regulatory component of gene expression in these vectors appeared to be transcriptional rather than translational. There was an inverse relationship between expression of GFP and the heterologous coat protein genes that was reflected in accumulation of the respective mRNAs and proteins. The most effective vector in this series (30B) contained sequences encoding the coat protein subgenomic mRNA promoter, coat protein ORF, and 3' nontranslated region from tobacco mild green mosaic virus U5. Expressed from 30B, GFP accumulated up to 10% of total soluble protein in leaves. (+info)
Splicing of a retained intron within ROMK K+ channel RNA generates a novel set of isoforms in rat kidney.
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The renal outer medulla K+ channel (ROMK) family of K+ channels may constitute a major pathway for K+ secretion in the distal nephron. To date, four main isoforms of this gene have been identified in the rat that differ only in their NH2-terminal amino acids and that share a common "core exon" that determines the remaining protein sequence. Using RT-PCR, we have identified a new set of ROMK isoforms in rat kidney that are generated by the deletion of a region within the ROMK core sequence that is identifiable as a typical mammalian intron. This splicing event was shown to be reproducible in vitro by detection of deleted ROMK mRNA in Madin-Darby canine kidney (MDCK) cells stably transfected with the gene for ROMK2. Translation of the deletion variant of ROMK2 was confirmed in vitro and visualized in MDCK cells following transient transfection with an enhanced green fluorescent protein tag. The deletion in this core region is predicted to generate hydrophilic proteins that are approximately one-third of the size of native ROMK and lack membrane-spanning domains. (+info)
Identification of an endogenous dominant-negative short isoform of caspase-9 that can regulate apoptosis.
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Alternatively spliced isoforms of certain apoptosis regulators, such as Bcl-x, Ced-4, and Ich-1, have been shown to play opposing roles in regulating apoptosis. Here, we describe the identification of an endogenous alternatively spliced isoform of caspase-9, named caspase-9b, which lacks the central large subunit caspase domain. Caspase-9b is detectable in many cell lines by PCR and at the mRNA and protein levels. Caspase-9b can interact with the caspase recruitment domain of Apaf-1, and like the active site mutant of caspase-9, it can inhibit multiple forms of apoptosis, including those triggered by oligomerization of death receptors. It can also block activation of caspase-9 and -3 by Apaf-1 in an in vitro cytochrome c-dependent caspase activation assay. These results suggest that caspase-9b functions as an endogenous apoptosis inhibitory molecule by interfering with the formation of a functional Apaf-1-caspase-9 complex. (+info)
Chick Barx2b, a marker for myogenic cells also expressed in branchial arches and neural structures.
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We have isolated a new chicken gene, cBarx2b, which is related to mBarx2 in sequence, although the expression patterns of the two genes are quite different from one another. The cBarx2b gene is expressed in craniofacial structures, regions of the neural tube, and muscle groups in the limb, neck and cloaca. Perturbation of anterior muscle pattern by application of Sonic Hedgehog protein results in a posteriorization of cBarx2b expression. (+info)