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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 polymerase chain reaction was used to amplify genomic DNA and reverse-transcribed RNA from human lymphocytes, using primers derived from conserved regions within the retroviral
reverse transcriptase
. Sequencing of 33 cloned amplification products revealed that a variety of sequences with similarity to mouse mammary tumor virus, mouse intracisternal A particle, and human endogenous retrovirus K10 were detected with this primer pair. The sequences were divided into six subgroups, with a nucleotide sequence dissimilarity of about 25% between the subgroups. Members within five of the subgroups were most closely related to human endogenous retrovirus K10 and mouse mammary tumor virus, whereas sequences of the sixth subgroup also showed similarity to mouse intracisternal A particle. Ten of the sequences had open reading frames with preference for silent mutations at conserved sites. Southern blot analysis showed that some
HML
(human endogenous MMTV-like) subgroups (
HML
-4 and
HML
-5) were present in a few copies (about 5), whereas others (
HML
-1 to
HML
-3 and
HML
-6) were present in at least 10 to 20 copies per genome. Northern (RNA) blot analysis revealed that several of the subgroups are differentially expressed in human normal tissues. A complex pattern of transcripts from about 12 to 1.4 kb was found in several of the tissues tested. However, the most abundant expression was detected in lung (all subgroups), skeletal muscle (
HML
-4 and
HML
-5), placenta (
HML
-2 and
HML
-5), and kidney (
HML
-2,
HML
-3 and
HML
-5). Expression of
reverse transcriptase
sequences in human tissues may have biological consequences. The described sequences are similar to elements which cause carcinoma and are immunoregulatory in mice. It remains to be seen whether human sequences also have such functions.
...
PMID:Characterization of novel reverse transcriptase encoding human endogenous retroviral sequences similar to type A and type B retroviruses: differential transcription in normal human tissues. 769 84
Prototypic elements of a novel human endogenous retrovirus (HERV) family were identified and cloned from a human genomic library by the use of a pol fragment,
HML
-6, related to type A and type B retroviruses and class II HERVs. Out of 39 polhybridizing clones, five contained structures of full-length retroviral proviruses, with regions showing similarity to gag, pol and env, flanked by long terminal repeats (LTRs). Restriction mapping and partial sequence analysis of each full-length clone revealed few conserved restriction sites among
HML
-6 genomes, and about 20% sequence divergence over the
reverse transcriptase
region sequenced, suggesting that
HML
-6 constitutes a heterogeneous, but distinct family of elements belonging to the HERV-K superfamily. Sequence analysis of two clones,
HML
-6p and
HML
-6.17, revealed a lysine (K) tRNA UUU primer-binding site, and 40-68% nucleotide sequence similarity to LTR, gag, pro, pol and env regions of type B retroviruses and class II HERVs. HERV-K (
HML
-6) elements are present at about 30-40 copies per haploid genome. The
HML
-6 LTRs contain putative progesterone-responsive elements, which may be involved in the regulation of
HML
-6 expression. Furthermore, there are about 50 additional solitary
HML
-6 LTRs per haploid genome. Such LTRs were integrated within the pol region of two clones belonging to the same
HML
-6 family, indicating that some site preference may be involved in HERV integration.
...
PMID:Structure and genomic organization of a novel human endogenous retrovirus family: HERV-K (HML-6). 922 50
The prototype endogenous retrovirus HERV-K10 was identified in the human genome by its homology to the exogenous mouse mammary tumour virus. By analysis of a short 244 bp segment of the
reverse transcriptase
(RT) gene of other HERV-K10-like sequences, it has become clear that these elements represent an extended family consisting of multiple groups (the
HML
-1 to
HML
-6 subgroups). Some of these elements are transcriptionally active and contain an intact open reading frame for the RT protein, raising the possibility that this family is still expanding through retrotransposition. To better define the relationship of these endogenous retroviruses, we identified ten new members of the
HML
-2 subgroup. PCR was used to amplify reverse-transcribed RNA of a 595 bp region of the RT gene in a variety of human cell samples, including normal and leukaemic bone marrow and peripheral blood, placenta cells and a transformed T cell line. We provide an extensive phylogenetic analysis of the relationships for this cluster of HERV-K-related endogenous retroviral elements. Nucleotide diversity values for nonsynonymous versus synonymous codon positions indicate that moderately strong selection is or was operating on these retroviral RT gene segments. The evolution of this class of endogenous retroelements is discussed.
...
PMID:Evolutionary relationships within a subgroup of HERV-K-related human endogenous retroviruses. 946 Sep 24
Many retrotransposons and retroviruses are thought to select integration sites through interactions with specific chromosomal proteins. In yeast, the Ty5 retrotransposon integrates preferentially with regions bound by silent chromatin, namely the telomeres and the HMR and
HML
mating loci. A Ty5 mutant (M3) was identified with an approximately 20-fold decrease in targeted integration as measured by a plasmid-based targeting assay. Often chromosomal insertions generated by M3, none were located at the telomeres or silent mating loci. A single amino acid change at the boundary of integrase and
reverse transcriptase
is responsible for the mutant phenotype. We predict that this mutation lies within a targeting domain that mediates Ty5 target choice by interacting with a component of silent chromatin.
...
PMID:A single amino acid change in the yeast retrotransposon Ty5 abolishes targeting to silent chromatin. 965 88
Of the numerous endogenous retroviral elements that are present in the human genome, the abundant HERV-K family is distinct because several members are transcriptionally active and coding for biologically active proteins. A detailed phylogeny of the HERV-K family based on the partial sequence of the
reverse transcriptase
(RT) gene revealed a high incidence of an intact RT open reading frame within the
HML
-2 subgroup of HERV-K elements. In this study, we report the cloning of six full-length
HML
-2 RT genes, of which five contain an uninterrupted open reading frame. The RT enzymes were expressed as glutathione S-transferase fusion proteins in Escherichia coli, and several HERV-K RT enzymes demonstrated polymerase as well as RNase H activity. Several biochemical properties of the RT polymerase were analyzed, including the template requirements and optimal reaction conditions (temperature, type of divalent cation). Inspection of the nucleotide sequence of the HERV-K RT genes demonstrated a mosaic structure, suggesting that a high level of genetic recombination has occurred in this virus family, which is a hallmark of replication by means of reverse transcription. The selective pressure to maintain the RT coding potential is illustrated by the sequence of a particular HERV-K isolate that contains three 1-nucleotide deletions within a small RT segment, thus maintaining the open reading frame. These combined results may suggest that these endogenous RT enzymes still have a biological function. It is possible that the RT activity was involved in the spread of this major class of retroelements by retrotransposition, and in fact it cannot be excluded that this retrovirus group is still mobile. The endogenous RT activity may also have been involved in the shaping of the human genome, e.g., by formation of pseudogenes.
...
PMID:Identification of an active reverse transcriptase enzyme encoded by a human endogenous HERV-K retrovirus. 997 20
In the current era of functional genomics, it is remarkable that the intracellular range of transcript abundance is largely unknown. For the yeast Saccharomyces cerevisiae, hybridization-based complexity analysis and SAGE analysis showed that the majority of yeast mRNAs are present at one or fewer copies per cell; however, neither method provides an accurate estimate of the full range of low abundance transcripts. Here we examine the range of intracellular transcript abundance in yeast using kinetically monitored,
reverse transcriptase
-initiated PCR (kRT-PCR). Steady-state transcript levels encoded by all 65 genes on the left arm of chromosome III and 185 transcription factor genes are quantitated. Abundant transcripts encoded by glycolytic genes, previously quantitated by kRT-PCR, are present at a few hundred copies per cell whereas genes encoding physiologically important transcription factors are expressed at levels as low as one-thousandth transcript per cell. Of the genes assessed, only the silent mating type loci,
HML
and HMR, are transcriptionally silent. The results show that transcript abundance in yeast varies over six orders of magnitude. Finally, kRT-PCR, cDNA microarray, and high density oligonucleotide array assays are compared for their ability to detect and quantitate the complete yeast transcriptome.
...
PMID:Transcript abundance in yeast varies over six orders of magnitude. 1188 47
The human genome contains around 1000 betaretrovirus-like copies, human mouse mammary tumour virus (MMTV)-like (
HML
) groups 1-10, also referred to as human endogenous retrovirus "HERV-K". Despite many efforts, it is not established whether betaretroviruses, exo- or endogenous, are involved in the etiology of breast cancer, or other cancer diseases, in humans. Quantitative real-time PCR (QPCR) TaqMan-based assays for
HML
groups 1-7, targeting the conserved
reverse transcriptase
(RT) and integrase (IN) domains of the pol gene were designed. Plasmids containing the entire pol gene of HML1-7 were used as standards. The RT and IN based QPCRs could detect 10(0)-10(3) copies per PCR reaction of the plasmids. However, not all plasmids gave a signal in both RT and IN QPCRs, probably due to mismatches. Furthermore, RT and IN based HML6 specific QPCRs were developed. They were specific for amplification of transcripts for the whole HML6 group. The methods allow the monitoring in body fluids and tissues of expression of a wide range of betaretrovirus-like sequences. Betaretrovirus-like RNA was studied in normal human tissues and of HML6 in brains of multiple sclerosis (MS) patients. Brain, adrenal gland and testis had a high betaretrovirus-like expression. Multiple sclerosis plaques contained the same HML6 RNA concentration as control tissue. These assays are expected to enhance studies on involvement of betaretroviruses in physiology and disease.
...
PMID:Development of real-time PCRs for detection and quantitation of human MMTV-like (HML) sequences HML expression in human tissues. 1671 32
Actively replicating endogenous retroviruses entered the human genome millions of years ago and became a stable part of the inherited genetic material. They subsequently acquired multiple mutations, leading to the assumption that these viruses no longer replicate. However, certain human tumor cell lines have been shown to release endogenous retroviral particles. Here we show that RNA from human endogenous retrovirus K (HERV-K) (
HML
-2), a relatively recent entrant into the human genome, can be found in very high titers in the plasma of patients with lymphomas and breast cancer as measured by either
reverse transcriptase
PCR or nucleic acid sequence-based amplification. Further, these titers drop dramatically with cancer treatment. We also demonstrate the presence of
reverse transcriptase
and viral RNA in plasma fractions that contain both immature and correctly processed HERV-K (
HML
-2) Gag and envelope proteins. Finally, using immunoelectron microscopy, we show the presence of HERV-K (
HML
-2) virus-like particles in the plasma of lymphoma patients. Taken together, these findings demonstrate that elements of the endogenous retrovirus HERV-K (
HML
-2) can be found in the blood of modern-day humans with certain cancers.
...
PMID:Human endogenous retrovirus K (HML-2) elements in the plasma of people with lymphoma and breast cancer. 1863 60
The human germ cell tumor line Tera-1 produces retroviral particles which are encoded by the human endogenous retrovirus family HERV-K(
HML
-2). We show here, by quantitative
reverse transcriptase
PCR, that
HML
-2 gag and env RNA transcripts are selectively packaged into Tera-1 retroviral particles, whereas RNAs from cellular housekeeping genes and from other HERV families (HERV-H and HERV-W) are nonselectively copackaged. Assignment of cloned
HML
-2 gag and env cDNAs from Tera-1 retroviral particles to individual
HML
-2 loci in the human genome demonstrated that
HML
-2 RNA transcripts packaged into Tera-1 retroviral particles originate almost exclusively from an
HML
-2 provirus on chromosome 22q11.21. Based on relative cloning frequencies, this provirus was the most active among a total of eight transcribed
HML
-2 loci identified in Tera-1 cells. These data suggest that at least one
HML
-2 element, that is, the
HML
-2 provirus on 22q11.21, has retained the capacity for packaging RNA into
HML
-2-encoded retroviral particles. Given its elevated transcriptional activity and the presence of a full-length Gag open reading frame, the 22q11.21
HML
-2 provirus may also significantly contribute to Gag protein and thus particle production in Tera-1 cells. Our findings provide important clues to the generation and biological properties of
HML
-2-encoded particles. In addition, copackaging of non-
HML
-2 HERV transcripts in
HML
-2-encoded particles should inform the debate about endogenous retroviral particles putatively encoded by non-
HML
-2 HERV families that have previously been described for other human diseases, such as multiple sclerosis.
...
PMID:Human endogenous retrovirus family HERV-K(HML-2) RNA transcripts are selectively packaged into retroviral particles produced by the human germ cell tumor line Tera-1 and originate mainly from a provirus on chromosome 22q11.21. 1868 37
Human endogenous retroviruses (HERV) and related elements account for more than 8% of the human genome and significantly contribute to the human transcriptome by long terminal repeat (LTR) promoter activity. In this context, HERVs are thought to intervene in the expression of adjacent genes by providing regulatory sequences (cis-effect) or via noncoding RNA including natural antisense transcripts. To address the potential impact of HERV activity in urothelial carcinoma, we comparatively analyzed the HERV transcription profiles in paired samples of non-malignant urothelium and urothelial carcinoma derived from 13 patients with bladder cancer by means of a retrovirus-specific microarray (RetroArray). We established a characteristic HERV signature consisting of six ubiquitously active HERV subgroups (E4-1, HERV-Rb, ERV9, HERV-K-T47D, NMWV3, HERV-KC4). The transcription pattern is largely identical in human urothelial carcinoma, non-malignant urothelial tissue, four tumor-derived cell lines and in a non-malignant urothelial cell line (UROtsa). Quantitative
reverse transcriptase
PCR (qRT-PCR) of HERV-E4-1, HERV-K(
HML
-6) and HERV-T(S71-TK1) revealed a bias to lower HERV activity in carcinoma samples compared to non-malignant tissue. Determination of active HERV-E4-1 loci by cloning and sequencing revealed six HERV-E4-1 proviral loci that are differentially regulated in urothelial carcinoma cells and normal tissue. Two full-length HERV-E4-1 proviruses, HERV-Ec1 and HERV-Ec6, are located in antisense orientation in introns of the genes PLA2G4A and RNGTT, respectively. PLA2G4A encodes a cytosolic phospholipase A2 (cPLA2) that is dysregulated in many human tumors. PLA2G4A and HERV-Ec1 displayed reciprocal transcript levels in 7 of 11 urothelial carcinoma patients. Moreover, reciprocal shifts were observed after treatment of UROtsa cells with HERV-Ec1 and PLA2G4A-directed siRNAs or 5-aza-2'-deoxycytidine (aza-dC) pointing to an antagonistic regulation of PLA2G4A and HERV-Ec1 transcription in human urothelial cells. We suggest that transcription of HERV-Ec1 contributes to fine tuning of cPLA2 expression, thereby facilitating tumorigenesis.
...
PMID:HERV-E-mediated modulation of PLA2G4A transcription in urothelial carcinoma. 2314 55
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