Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.49 (reverse transcriptase)
 31,746 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The rat kidney ROM-K1 potassium channel cDNA was used to clone the homolog from human kidney using a combination of cDNA cloning, reverse transcriptase-polymerase chain reaction (RT-PCR), and primer extension cloning methods. In addition to the human species homolog of ROM-K1, four additional transcripts that are formed by alternative splicing of a single human gene were also characterized (hROM-K2 to hROM-K5). All five transcripts share a common 3' exon that encodes the majority of the channel protein and in three of the isoforms translation is initiated at a start codon contained within this exon (hROM-K2, hROM-K4, and hROM-K5). The two other transcripts contain additional exons that potentially extend the open reading frame by either 19 amino acid residues (hROM-K1) or by 17 amino acid residues (hROM-K3). Comparison of the translation products from the three representative transcripts (hROM-K1, hROM-K2, and hROM-K3) confirmed that hROM-K1 gave the largest product (41.6 kDa) and was translated more efficiently than either hROM-K2 or hROM-K3. Also, despite the presence of several additional canonical acceptor sites for Asn-linked glycosylation relative to rat ROM-K1, all three channel polypeptides were glycosylated to a similar extent in the in vitro translation reactions when canine pancreatic microsomes were included. A survey of the tissue distribution of expression of the various forms in selected human tissues showed that the core-exon linked to all four possible 5' exons are detected almost exclusively in kidney. The core-exon was also detected in human kidney and lower amounts were detected in skeletal muscle > pancreas > spleen > brain = heart > liver RNAs by RT-PCR. Alternatively, Northern blot analysis of poly(A)+ RNAs from these same tissues revealed a 2.8-kilobase transcript only in kidney. Heterologous expression of either the hROM-K1, hROM-K2, or hROM-K3 channel transcripts in Xenopus oocytes led to the expression of K(+)-selective, Ba(2+)-sensitive inwardly rectifying channels as measured by whole cell currents. At this level of analysis, the channel properties of the individual forms could not be distinguished.
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PMID:Cloning and characterization of multiple forms of the human kidney ROM-K potassium channel. 792 82

1. Physiological and molecular evidence for the presence and functional role of M1 muscarinic cholinergic receptors (mAChRs) in adult guinea-pig ventricular cells is presented. 2. Whole-cell clamp measurements of the L-type calcium current (ICa) in isolated myocytes were performed. Caesium was used to suppress potassium currents. ICa was increased by the muscarinic agonist carbachol in cells pretreated with pertussis toxin which blocked the M2 mAChR-triggered cascade of intracellular signalling, while it was not changed in untreated cells. 3. If the M2-mediated regulation of ICa was blocked by directly saturating the cell with cyclic adenosine monophosphate (cAMP) through the patch pipette, application of carbachol induced a further small increase of the current above the level reached after cAMP perfusion. This increase was more pronounced in cells pretreated with pertussis toxin. 4. The carbachol-induced increase of ICa was blocked by the selective M1 mAChR antagonist pirenzepine. 5. The application of high concentrations of carbachol increased the accumulation of [3H]inositol monophosphate up to 240% above control levels. This increase was reduced by application of pirenzepine. 6. The expression of M1 receptor mRNA in ventricular cardiocytes was shown by reverse transcriptase-polymerase chain reaction. 7. These results suggest that M1 mAChR regulation of ICa can be a component of the paradoxical positive inotropism induced by high concentrations of muscarinic agonists.
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PMID:M1 muscarinic receptors increase calcium current and phosphoinositide turnover in guinea-pig ventricular cardiocytes. 812 Aug 13

The ATP-sensitive potassium channel of insulin-secreting pancreatic beta-cells is a complex of Kir6.2, a member of the inwardly rectifying potassium channel superfamily, and the sulfonylurea receptor. We have isolated cDNA clones encoding rat Kir6.2. Co-expression of rat Kir6.2 and sulfonylurea receptor in human embryonic kidney cells generated a potassium current with the properties of the beta-cell ATP-sensitive potassium channel. A quantitative reverse transcriptase-polymerase chain reaction assay indicated that Kir6.2 and sulfonylurea receptor mRNAs were abundantly expressed in rat islets and that expression of Kir6.2 mRNA was reduced by >70% in islets from Zucker diabetic fatty male rats, whereas there was no significant change in sulfonylurea receptor mRNA levels. Thus, decreased expression of Kir6.2 could contribute to the beta-cell dysfunction which characterizes diabetes mellitus in this animal model.
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PMID:Rat inwardly rectifying potassium channel Kir6.2: cloning electrophysiological characterization, and decreased expression in pancreatic islets of male Zucker diabetic fatty rats. 860

We report a method that allows accurate, absolute quantification of gene expression in a single reverse transcriptase (RT)-PCR reaction. This method makes use of novel high-performance liquid chromatography (HPLC) technology to resolve and quantify the products of competitive, mutant RNA PCRs. The HPLC technique allows rapid, high resolution of reaction products. On-line UV detection eliminates the need for radiolabel or other tracers. The HPLC technique also demonstrates that these competition reactions readily generate heteroduplex products. The ability of HPLC to resolve and quantify heteroduplex products is fundamental to the accuracy of the technique. Accurate measurements of gene expression have been obtained over four orders of magnitude and experiments employing predetermined quantities of specific native RNA input have demonstrated the ability of the system to provide absolute estimates of gene expression. Large size differences between native and mutant RNA inputs affected reverse transcriptase (RT) efficiency, but not PCR amplification efficiency. However, the magnitude of the RT efficiency effect can be estimated, is reproducible, and can therefore be adjusted by a calculated correction factor. The RT efficiency difference can been eliminated by reduction in the magnitude of the sequence difference between native and mutant RNA so that no correction factor is required. The application of the technique to quantification of expression of the alpha 1 subunit of sodium, potassium-ATPase in microdissected nephron segments is demonstrated.
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PMID:Accurate and absolute quantitative measurement of gene expression by single-tube RT-PCR and HPLC. 880 71

Here we show that secretory phospholipase A2 (sPLA2) that is immunochemically indistinguishable from type II sPLA2 is (i) stored in neuroendocrine cells, (ii) released in response to neurotransmitters or depolarization, and (iii) involved in the regulation of catecholamine secretion by these cells. Rat brain synaptic vesicle fractions contained PLA2 activity, which was neutralized completely by an antibody raised against rat type II sPLA2. sPLA2 immunoreactive with anti-(type II sPLA2) antibody was released from synaptosomes in response to depolarization evoked by a high concentration of potassium in the presence of Ca2+. Rat pheochromocytoma PC12 cells, which differentiated into adherent cells similar to sympathetic neurons in response to nerve growth factor, were used for the detailed analysis of the dynamics and function of sPLA2 in neuronal cells. Antibody against rat type II sPLA2 precipitated approximately 80% of the PLA2 activity in PC12 cell lysates. Transcript for type II sPLA2 was detected in PC12 cells by reverse transcriptase-PCR. When neuronally differentiated PC12 cells were stimulated with carbamylcholine or potassium, sPLA2 was released into the medium and reached a maximal approximately 40% release by 15 min. Inhibitors specific to type II sPLA2 suppressed catecholamine secretion by PC12 cells which had been activated by carbamylcholine. Furthermore, treatment of PC12 cells with exogenous type II sPLA2 alone elicited catecholamine secretion. These observations indicate that sPLA2 released from neuronal cells may regulate the degranulation process leading to release of neurotransmitters and are compatible with our earlier finding that this enzyme is involved in the degranulation of rat mast cells.
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PMID:Release of secretory phospholipase A2 from rat neuronal cells and its possible function in the regulation of catecholamine secretion. 880 65

Using acutely dissociated substantia nigra pars compacta (SNC) dopaminergic (DA) neurons, our previous studies indicated that neurotensin (NT) excites SNC DA neurons by increasing the cationic conductance and reducing the inwardly rectifying K+ conductance. Further investigation also revealed that pertussis toxin (PTX)- insensitive G-proteins mediate neurotensin modulation of cation and potassium channels. G alpha q and G alpha 11 are widely distributed in various tissues including the brain and likely to mediate PTX-insensitive signal transductions in the nervous system. In this study, two different experiments were conducted to test the hypothesis that G alpha q/11 mediates neurotensin regulation of the cationic and K+ conductances. First, we investigated the expression of G alpha q and G alpha 11 mRNAs in NT-responsive SNC DA neurons by combining whole-cell patch-clamp recordings with single-cell reverse transcriptase-polymerase chain reaction (RT-PCR) assay. After recording NT-evoked membrane currents, the cellular content was harvested from single neurons and used as the template for the subsequent RT-PCR analysis. Both G alpha q and G alpha 11 mRNAs were present in all SNC DA neurons that responded to neurotensin. SNC DA neurons were also internally dialyzed with an antibody directed against the common C-terminus of G alpha q and G alpha 11 during whole-cell recordings. In DA neurons perfused with the anti-G alpha q/11 antiserum, neurotensin failed to evoke inward currents resulting from the opening of cation channels and the closure of inward rectifier K+ channels. It is concluded that NT modulation of cation and inward rectifier K+ channels in SNC DA neurons is transduced by G alpha q and/or G alpha 11.
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PMID:G alpha q/11 mediates neurotensin excitation of substantia nigra dopaminergic neurons. 901 62

Large conductance, calcium-activated (BK) potassium channels play a central role in the excitability of cochlear hair cells. In mammalian brains, one class of these channels, termed Slo, is encoded by homologues of the Drosophila 'slowpoke' gene. By homology screening with mouse Sla cDNA, we have isolated a full-length clone (cSlo1) from a chick's cochlear cDNA library, rSlol had greater than 90% identity with mouse Slo at the amino acid level, and was even better matched to a human brain Slo at the amino and carboxy termini. cSlol had none of the additional exons found in splice variants from mammalian brain. The reverse transcriptase polymerase chain reaction (RT-PCR) was used to show expression of cSlal in the microdissected hair cell epithelium basilar papilla. Transient transfection of HIEK 293 cells demonstrated that cSlol encoded a potassium channel whose conductance averaged 224 pS at +60 mV in symmetrical 140 mM K. Macroscopic currents through cSlol channels were blocked by scorpion toxin or tetraethyl ammonium, and were voltage and calcium dependent. cSlol is likely to encode BK-type calcium-activated potassium channels in cochlear hair cells.
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PMID:CSlo encodes calcium-activated potassium channels in the chick's cochlea. 917 44

Astrocytes are an abundant glial cell type of the central nervous system that appear to play a role in regulating extracellular potassium concentrations in brain, thereby contributing to the maintenance of normal neuronal activity. Voltage-gated potassium conductances, shown to be present in astrocytes, may be involved in this and other astrocytic functions. Toward defining the role of voltage-gated potassium channels in astrocytes, total RNA prepared from cultured mouse cortical astrocytes was screened, using a reverse transcriptase-polymerase chain reaction (RT-PCR) approach, for the expression of several members of the Shaker-like potassium channel subfamily (Kv1.1-Kv1.6). A relatively high level of Kv1.6 transcript was identified by RT-PCR and then confirmed and quantitated by ribonuclease protection assays using a Kv1.6-specific riboprobe. Immunocytochemical staining showed double-labeling of glial fibrillary acidic protein-positive cells with antibody specific for the Kv1.6 channel. The Kv1.6 protein expression was variable among the individual astrocytes. Outward voltage-gated currents were studied in astrocytes in primary culture using the Nystatin-perforated patch voltage clamp technique. Outward potassium currents were observed in all cells studied, and this current was partially blocked by perfusion with 100 nM dendrotoxin (DTX) in 14 of 16 cells tested. This DTX-sensitive current appeared to be a sustained outward potassium current, consistent with the suggestion that the Shaker-like potassium channel Kv1.6 underlies a portion of the delayed rectifier potassium current in cultured mouse cortical astrocytes.
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PMID:Identification of the delayed rectifier potassium channel, Kv1.6, in cultured astrocytes. 917 97

This study examined the responsiveness of dopaminergic neurons to PRL and the expression of PRL receptors in fetal hypothalamic cells. Hypothalamic cells were cultured in medium containing 5 or 25 mM potassium (K+) with or without 5% FBS. Rat PRL (rPRL) treatment (10-1000 ng/ml) for 10 days increased tyrosine hydroxylase (TH) activity 1.6- to 1.8-fold in dopaminergic neurons cultured in serum-containing medium with 25 mM K+, but not in defined medium or any medium with 5 mM K+. The rPRL-induced increase in TH activity was observed at 10-1000 ng/ml after both 1 and 10 days of rPRL treatment, whereas 1 ng/ml was not effective. TH activity was not altered after 1-12 h of rPRL treatment (100 ng/ml), but was increased 1.4-fold after 1-3 days and 1.8-fold after 5-10 days. The colocalization of PRL receptors and TH was evaluated by double labeled immunocytochemistry. PRL receptor immunostaining was observed in most TH-immunoreactive cells cultured in either defined or serum-containing medium with or without 10 days of rPRL treatment (100 ng/ml). As assessed by reverse transcriptase-PCR, the long form, but not the short form, of the PRL receptor was expressed in the hypothalamic cells regardless of medium composition, similar to the expression pattern in adult mediobasal hypothalamus from ovariectomized rats. These data indicate that a factor present in FBS imparts PRL responsiveness to hypothalamic dopaminergic neurons in vitro. The effective PRL concentrations and the time course for PRL's action in vitro are within the physiological range in vivo. The colocalization of PRL receptor in dopaminergic neurons provides anatomical evidence for a direct effect of PRL, with the long form of the PRL receptor being the predominant form in the hypothalamic cells.
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PMID:Prolactin (PRL) receptors are colocalized in dopaminergic neurons in fetal hypothalamic cell cultures: effect of PRL on tyrosine hydroxylase activity. 920 47

Progressive and selective degeneration of specific classes of neurons occurs in the Alzheimer's disease (AD) brain. Differential vulnerability in this disease is evident even within supopulations that synthesize and release acetylcholine as a transmitter; i.e., basal forebrain cholinergic neurons degenerate but other classes of cholinergic neurons are relatively preserved. The basis for this selective vulnerability is unknown. Studies of differential neuronal vulnerability in AD would be facilitated if cell lines expressing neurotransmitter-specific phenotypes could be cloned from the brain. Capillary electrophoresis (CE) with laser-induced fluorescence (LIF) has been shown to be a sensitive method of detection and quantitation of the DNA products of the polymerase chain reaction (PCR). CE/LIF was combined with the PCR to detect phenotypic messenger RNA (mRNA) molecules, converted to cDNA using reverse transcriptase (RT), in cultures of virally immortalized brainstem progenitor cells produced during establishment of a cloning strategy. RT/PCR methods were developed for detection of the mRNAs for choline acetyltransferase (ChAT), the neuronal, constitutive isoform of nitric oxide synthase (c-NOS), and the growth-associated protein GAP-43, three genes known to be expressed in central cholinergic neurons. A "nondestructive" method of screening cultured cells for their expression of c-NOS was established using depolarization with medium containing 50 mM potassium ion. These approaches were first validated using cultured SN56 (cholinergic) and N1E-115 (c-NOS-positive) neuroblastoma cells, and with primary brainstem cultures. For the cloning of novel cell lines, progenitor cells were isolated from the embryonic day 13 fetal brainstem and were immortalized by transfection with a retroviral vector that confers a temperature-sensitive SV-40 transforming activity and neomycin resistance. Cell colonies surviving in G418-containing media were isolated and cloned by dilution. Clonal cultures were expanded by growth at 33 degrees C, differentiated by switching to a low-serum medium and growth at 39 degrees C, and screened for depolarization-induced accumulation of nitrite in the medium. The subset of putative c-NOS-positive clones (about 4%) were then screened for their expression of mRNAs using RT/PCR in combination with CE/LIF. This screening protocol proved to be powerful in the rapid isolation and phenotypic characterization of immortalized progenitor cells cloned from embryonic rat brainstem.
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PMID:Use of capillary electrophoresis with laser-induced fluorescence detection to assess messenger ribonucleic acid molecules amplified by the polymerase chain reaction: applications in the cloning of cells. 937 66


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