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 recently developed ultrasensitive reverse transcriptase (RT) test involving a PCR step can detect minute amounts of RT in single retroviral particles and is 10(6) times more sensitive than conventional RT assays. We have found that different DNA-dependent DNA polymerases like DNA Polymerase I from Escherichia coli and eukaryotic enzymes like DNA polymerase alpha and gamma exhibit RT-like activities in this assay, whereas DNA polymerase beta and Klenow enzyme show only minor activities. To discriminate false-positive signals caused by DNA-dependent DNA polymerases in the RT-PCR assay, we have included increasing amounts of activated DNA in the RT reactions. This modification of the assay leads to complete inhibition of aberrant but not authentic RT activities. This improvement specifies the RT-PCR assay as the most sensitive tool for the detection of even very rare replication-competent retroviruses and of related enzymatic activities indigenous, for example, for products of endogenous retrovirus-like RT genes in cell extracts.
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PMID:Specific suppression of false-positive signals in the product-enhanced reverse transcriptase assay. 882 50

Polymerase chain reaction (PCR) and in situ hybridization (ISH) have revolutionized the study of genes and gene expression, and many of these molecular biology advances will greatly impact research in toxicological pathology. PCR is one of the most powerful tools in molecular biology and involves primer-mediated enzymatic in vitro amplification of specific target DNA sequences. Recent innovative methods utilizing PCR technology have been developed to detect mutations in neoplastic and small subpopulations of cells, to study biomarkers of genetic susceptibility and genes involved with carcinogen metabolism, to estimate mutation frequencies, to find novel genes induced by chemical exposure, and to characterize gene expression. ISH provides data on individual cells rather than an average of total cellular populations and allows analysis for heterogeneity. When combined with PCR, the sensitivity of ISH is elevated, and single-copy DNA sequences, single-base mutations, or low copies of messenger RNA (mRNA) can potentially be detected within individual cells. Herein are reviewed ISH- and PCR-based techniques such as single-strand conformation polymorphism analysis to detect point mutations, allelotypic analysis for loss of heterozygosity, differential display of mRNA to characterize gene expression, quantitative reverse transcriptase polymerase chain reaction, and in situ polymerase chain reaction with emphasis on current or potential applications in toxicological pathology. These new and evolving techniques offer tremendous potential in providing new insights into the molecular basis of toxicity and carcinogenesis.
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PMID:Polymerase chain reaction and in situ hybridization: applications in toxicological pathology. 883 77

Human immunodeficiency virus infection of a human bone derived cell line was initiated by either cell free virus or with a cell to cell transmission method. The human bone derived cells were examined for 8 weeks, and virus infection was not detected when assessed by microscopy, immunofluorescence, reverse transcriptase activity, or infection of cocultivated human T lymphoid cells susceptible to human immunodeficiency virus. Polymerase chain reaction analysis of human bone derived cells inoculated with the cell to cell infection format showed less than 0.1% infected cells. It is possible that the infected cells detected by polymerase chain reaction were lymphocytes used in the cell to cell infection format. Alternatively, latent infection may have been established in the bone derived cells with no apparent expression of the proviral genome. A large proportion of bone is represented by human bone derived cells, and it is unlikely that bone will contribute to a significant human immunodeficiency virus reservoir in vivo. The blood of bone allograft donors is likely to have a greater virus bioburden than is bone. Methods to sterilize bone should be assessed by their efficacy to inactivate the virus in blood contaminating the graft, and methods to detect human immunodeficiency virus deoxyribonucleic acid in a bone graft may be less sensitive than examining the donor's blood.
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PMID:Human immunodeficiency virus infection of human bone derived cells. 889 52

High efficiency retroviral-mediated gene transfer to rhesus CD4+ peripheral blood lymphocytes (PBL) was accomplished using an optimized transduction protocol using a gibbon ape leukemia virus (GaLV) envelope-containing packaging cell line PG13. Engineered CD4+ PBL were administered to three nonmyeloablated animals in three or four separate infusions over 9 months. Polymerase chain reaction (PCR) demonstrated in vivo reconstitution of the genetically engineered CD4+ PBL at levels between 1% and 10% of the circulating leukocytes. This level of gene marking indicates that up to 30% of endogenous circulating CD4+ cells can be genetically engineered. The high levels of marked lymphocytes persist for the first 3 weeks following reinfusion then decline to < or = 0.1% over the next 21 weeks. Lymph node (LN) biopsies were performed to determine if the engineered CD4+ lymphocytes could traffic to lymphoid tissues. Marked lymphocytes were detected in LN biopsies 100 days following reinfusion of the transduced cells. Expression of retroviral vector-derived sequences was detected by reverse transcriptase (RT)-PCR analysis from CD4-enriched lymphocytes that were activated by culturing in the presence of recombinant interleukin-2 (rlL-2). A humoral immune response to fetal bovine serum (FBS) was detected in all animals following the second administration of the culture expanded CD4+ lymphocytes. No antibody response was detected to the neomycin-resistance (Neo(R)) transgene, the murine retroviral group-specific antigen (gag), or GaLV envelope (env) proteins.
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PMID:Efficient in vivo marking of primary CD4+ T lymphocytes in nonhuman primates using a gibbon ape leukemia virus-derived retroviral vector. 905 20

Hepadnavirus polymerases initiate reverse transcription in a protein-primed reaction that involves the covalent linkage of the first deoxyribonucleotide to the polymerase polypeptide. We recently expressed human hepatitis B virus (HBV) reverse transcriptase (pol) in insect cells by using the recombinant baculovirus system. The purified protein is active in nucleotide priming and reverse transcription reactions. In this report, we demonstrate that the tyrosine residue at amino acid number 63 within the TP (terminal protein) domain of the polymerase is the site of covalent linkage of the first nucleotide of minus-strand DNA. Analysis of pol polypeptides with mutations in the TP and RT (reverse transcriptase) domains indicated that both domains were required for in vitro nucleotide priming activity. Polymerase proteins with mutations in the TP and RT domains were not capable of complementing each other in the nucleotide priming reaction, suggesting that transcomplementation between full-length polypeptides was not possible. However, when the TP and RT domains were expressed as separate polypeptides, they formed a highly stable complex that was active in nucleotide priming and reverse transcription. The presence of an epsilon stem-loop dramatically increased the nucleotide priming activity in transcomplementation assays, even though full-length pol displayed similar activities in the absence and presence of epsilon. These data raise the possibility that in the transcomplementation assay, epsilon may play a role in the formation of a functional complex between TP and RT, rather than being required only as the template for nucleotide priming. The results indicate that using the baculovirus system, it is possible to dissect the protein-protein and protein-RNA interactions required for HBV genome replication.
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PMID:Transcomplementation of nucleotide priming and reverse transcription between independently expressed TP and RT domains of the hepatitis B virus reverse transcriptase. 906 Jun 59

Adolescent female mice were inoculated intraperitoneally with coxsackievirus B3 Nancy strain, sacrificed 3 and 5 days later and the livers harvested. A protocol for direct reverse transcriptase in situ PCR (RT-ISPCR) detection of enteroviral RNA in paraffin-embedded liver tissues was developed. The optimal conditions for the assay were determined. The best results were obtained when the tissue was fixed in formalin, prior to being embedded in paraffin, then cut in 5 micron thick sections, and mounted onto silanized slides. After deparaffination the slides were incubated in 1 microgram/m1 Proteinase K for 10 min and cDNA synthesis was carried out. For successful RT-ISPCR 40-50 cycles of amplification were necessary. The optimal concentrations of dNTP, primers and Taq Polymerase for RT-ISPCR were determined by serial dilution assays. Primers were selected from highly conserved sequences in the 5' non-coding region (5'NTR). To detect the viral RNA in the liver, digoxigenin-dUTP was incorporated during amplification, subsequently bound with an antidigoxigenin antibody conjugated to alkaline phosphatase (AP), followed by colorimetric detection with nitroblue tetrazolium salt (NBT) and 5-brom-4chloro-3indolyl-phosphate (BCIP). The result was a blue precipitate in the cytoplasm of hepatocytes from infected mice. Fibroblasts, endothelial cells, lymphocytes and the nuclei of hepatocytes were negative. Thus, RT-ISPCR is a specific method for the detection of enterovirus RNA in the hepatocytes of infected mice, and can be of use for the determination of EV liver disease in man.
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PMID:Direct in situ transcriptase polymerase chain reaction for the detection of Enterovirus genome in liver tissues. 912 62

We used Northern blot analysis, ribonuclease protection assay (RPA), reverse transcriptase-polymerase chain reaction, and in situ hybridization to investigate the hypothesis that the CNG1 isoform of the cyclic nucleotide-gated nonselective cation channel may be widely distributed in tissues of the rat. A cDNA encoding the CNG1 isoform was isolated from rat eye and human retina, and partial sequences were isolated from rat pineal gland and human kidney. Northern blot analysis revealed a 3.1-kilobase (kb) CNG1 transcript in rat eye, pineal gland, pituitary, adrenal gland, and spleen, and a larger transcript of 3.5 kb was found in testis. RPA confirmed the identity of CNG1 mRNA in rat eye, lung, spleen, and brain. Polymerase chain reaction-based detection of the mRNA for CNG1 indicates that the channel is expressed in lower abundance in many other tissues, including thymus, skeletal muscle, heart, and parathyroid gland. The cellular distribution of CNG1 was further studied by in situ hybridization, which demonstrated expression of mRNA in lung, thymus, pineal gland, hippocampus, cerebellum, and cerebral cortex but not in heart or kidney.
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PMID:Cloning and widespread distribution of the rat rod-type cyclic nucleotide-gated cation channel. 914 60

Epstein-Barr virus (EBV) is a human lymphotropic virus whose main targets have traditionally been described as B lymphocytes and epithelial cells. Here we report the isolation and characterization of largely monoclonal transformed human T-cell lines infected by EBV. The transformed T cells expressed CD2, CD3, and either CD4 or CD8 surface molecules and more generally displayed the phenotype of naive T cells with a complete and clonal rearrangement of the T-cell receptor. None of the cell lines expressed B cells, natural killer, or myeloid antigens or had immunoglobulins genes rearrangement. They grew in the absence of growth factor; however, they all secreted interleukin-2 after mitogenic activation. Polymerase chain reaction (PCR) analysis showed the presence of EBV DNA in all these cell lines. Moreover, Southern blot analysis of one of these cell lines shows the presence of circular episomic EBV DNA, and by Northern blot or reverse transcriptase-PCR analysis, only the expression of Epstein-Barr nuclear antigen-1 (EBNA-1) and latent membrane protein-1 (LMP-1) genes was detected. Finally, the complete transformed phenotype of this T-cell line was shown by its injection into nude or recombination activating gene 2 (RAG2)-deficient mice that led to the formation of solid tumors.
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PMID:Isolation and characterization of transformed human T-cell lines infected by Epstein-Barr virus. 919 76

Skin from acute and healed herpes simplex virus or herpes simplex virus-associated erythema multiforme (HAEM) lesions was examined by polymerase chain reaction with primers for DNA polymerase, ICP8, thymidine kinase (5' end of herpes simplex virus genome), and ICP27 (3' end of herpes simplex virus genome). The primers were herpes simplex virus specific and equally sensitive. The four herpes simplex virus genes were seen in acute herpes simplex virus lesions, but except for one patient, only polymerase (or polymerase and ICP8) were seen in 7-d healed lesional skin. Herpes simplex virus DNA was not seen 1-1.5 mo after healing. HAEM skins from 18 of 24 patients (75%) were positive for polymerase DNA and four of 24 (17%) were also positive for ICP8 or thymidine kinase DNA. Only one tissue (4%) was positive for polymerase, ICP8, and ICP27 DNA. Skin from healed HAEM lesions was still polymerase DNA positive 1-3 mo after lesion resolution. The polymerase DNA signal was in the basal and spinous cell layers of the epidermis and in the outer root sheath of the hair follicle. Polymerase RNA was identified by reverse transcriptase polymerase chain reaction in skin from acute, but not healed polymerase DNA positive HAEM lesions, suggesting that polymerase expression is associated with HAEM lesion development.
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PMID:Expression of herpes simplex virus DNA fragments located in epidermal keratinocytes and germinative cells is associated with the development of erythema multiforme lesions. 932 89

CneMDR1, a gene encoding a protein related to several eukaryotic multidrug resistance (MDR) proteins, was identified, cloned, and characterized from a clinical isolate of Cryptococcus neoformans (Cn) (strain M1-106). Polymerase chain reaction (PCR) amplification of a DNA region encompassing conserved motifs of other MDR-like proteins was initially used to identify and clone CneMDR1. Analysis of the corresponding cDNA revealed an open reading frame punctuated by 16 introns. CneMDR1 encoded a protein (CNEMDR1) containing 1408 amino acids (aa) with a predicted mass of approximately 152kDa. Protein structure predictions suggested the presence of two putative 6-transmembrane (TM) domains as well as two ATP-binding domains, structural characteristics typical of ATP-binding cassette (ABC) proteins. Members of this superfamily, which include MDR proteins, are frequently involved in active transport of a variety of substrates across the cell membrane. Pulsed-field gel electrophoresis revealed the presence of 12 chromosomal bands in this clinical isolate of Cn. CneMDR1 was detected by hybridization on chromosome IV. High-stringency hybridization detected only one MDR-like gene. However, a second MDR-like gene (CneMDR2) was discovered during reverse transcriptase-PCR (RT-PCR) amplification using cDNA.
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PMID:Cloning and characterization of CneMDR1: a Cryptococcus neoformans gene encoding a protein related to multidrug resistance proteins. 940 67


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