EC:2.7.7.48 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.48 (transcriptase)
9,479 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Retroviruses-derived elements in the human genome constitute 90% of non-coding mobile sequences. Reverse transcriptase (RT) plays an essential role in their transposition as do long terminal repeats (LTRs), which contain promotors, enhancers, and regulatory sequences. Some retroelements (pseudogens and retrogenes, e.g. SINE) are non-autonomic and do not possess their own RT. These elements are dependent on autonomic elements (retroposons, e.g. LINE, retrotransposons, exo- and endogenous retroviruses). The genome of retroviruses is composed of gag, pol, and env genes flanked by long terminal repeats. Endogenous retroviruses are probably the remnants of ancient germ cell infection by exogenous retroviruses and are transmissible to the next generation in a Mendelian way. Most of them are defective (because of mutation accumulation), but some are still active and their expression is regulated by different factors (UV radiation, inflammatory cytokines, steroid hormones, and exogenous virus products). Retroelements as well as their gene products exert influence on the organism's functions. They influence the plasticity and evolution of genomes, are a source of promotors and regulatory sequences, but they also supply additional signals of transcription initiation, mRNA splicing, and STOP codons. One of the positive aspects of human endogenous retroviruses (HERVs) is the participation of their products in normal syncytiotrophoblast formation. They also block exogenous retrovirus replication by receptor interference or antisense mRNA. Their presence is considered to be connected with a number of autoimmunological diseases (multiple sclerosis, insulin-dependent diabetes mellitus, systemic lupus erythematosus), cancer, or even psychiatric disorders (schizophrenia). There are also other problems connected with the potential role of ERVs in genomic therapy (with retroviruses vectors) and transplantology (xenotransplantation).
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PMID:[Retroviruses-derived sequences in the human genome. Human endogenous retroviruses (HERVs)]. 1719 6

The rate-limiting step for nucleotide incorporation in the pre-steady state for most nucleic acid polymerases is thought to be a conformational change. As a result, very little information is available on the role of active-site residues in the chemistry of nucleotidyl transfer. For the poliovirus RNA-dependent RNA polymerase (3D(pol)), chemistry is partially (Mg(2+)) or completely (Mn(2+)) rate limiting. Here we show that nucleotidyl transfer depends on two ionizable groups with pK(a) values of 7.0 or 8.2 and 10.5, depending upon the divalent cation used in the reaction. A solvent deuterium isotope effect of three to seven was observed on the rate constant for nucleotide incorporation in the pre-steady state; none was observed in the steady state. Proton-inventory experiments were consistent with two protons being transferred during the rate-limiting transition state of the reaction, suggesting that both deprotonation of the 3'-hydroxyl nucleophile and protonation of the pyrophosphate leaving group occur in the transition state for phosphodiester bond formation. Importantly, two proton transfers occur in the transition state for nucleotidyl-transfer reactions catalyzed by RB69 DNA-dependent DNA polymerase, T7 DNA-dependent RNA polymerase and HIV reverse transcriptase. Interpretation of these data in the context of known polymerase structures suggests the existence of a general base for deprotonation of the 3'-OH nucleophile, although use of a water molecule cannot be ruled out conclusively, and a general acid for protonation of the pyrophosphate leaving group in all nucleic acid polymerases. These data imply an associative-like transition-state structure.
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PMID:Two proton transfers in the transition state for nucleotidyl transfer catalyzed by RNA- and DNA-dependent RNA and DNA polymerases. 1736 May 13

Replication of picornavirus genomes is accomplished by the virally encoded RNA-dependent RNA polymerase (RdRP). Although the primary structure of this enzyme exhibits a high level of conservation, there are several significant differences among different picornavirus genera. In particular, a comparative alignment indicates that the C-terminal sequences of cardiovirus RdRP (known also as 3D(pol)), are 1-amino-acid residue (arginine or tryptophan) longer than that of the enterovirus or rhinovirus enzymes. Here, it is shown that alterations of the last codon of the RdRP-encoding sequence of mengovirus RNA leading to deletion of the C-terminal Trp460 or its replacement by Ala or Phe dramatically impaired viral RNA replication and, in the former case, resulted in a quasi-infectious phenotype (i.e., the mutant RNA might generate a low yield of pseudorevertants acquiring a Tyr residue in place of the deleted Trp460). The replacement of Trp460 by His or Tyr did not appreciably alter the viral growth potential. Homology modeling of three-dimensional structure of mengovirus RdRP suggested that Trp460 may be involved in interaction between the thumb and palm domains of the enzyme. Specifically, Trp460 of the thumb may form a hydrogen bond with Thr219 and hydrophobically interact with Val216 of the palm. The proposed interactions were consistent with the results of in vivo SELEX experiment, which demonstrated that infectious virus could contain Ser or Thr at position 219 and hydrophobic Val, Leu, Ile, as well as Arg (whose side chain has a nonpolar part) at position 216. A similar thumb-palm domain interaction may be a general feature of several RdRPs and its possible functional significance is discussed.
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PMID:Significance of the C-terminal amino acid residue in mengovirus RNA-dependent RNA polymerase. 1746 26

Recently increased availability of anti-retroviral therapy (ART) has mitigated HIV-1/AIDS prognoses especially in resource poor settings. The emergence of ART resistance-associated mutations from non-suppressive ART has been implicated as a major cause of ART failure. Reverse transcriptase inhibitor (RTI)-resistance mutations among 12 non-subtype B HIV-1-infected children with treatment failure were evaluated by genotypically analyzing HIV-1 strains isolated from plasma obtained between 2001 and 2004. A region of pol-RT gene was amplified and at least five clones per sample were analyzed. Phylogenetic analysis revealed HIV-1 subtype A1 (n = 7), subtype C (n = 1), subtype D (n = 3), and CRF02_AG (n = 1). Before treatment, 4 of 12 (33.3%) children had primary RTI-resistance mutations, K103N (n = 3, ages 5-7 years) and Y181C (n = 1, age 1 year). In one child, K103N was found as a minor population (1/5 clones) before treatment and became major (7/7 clones) 8 months after RTI treatment. In 7 of 12 children, M184V appeared with one thymidine-analogue-associated mutation (TAM) as the first mutation, while the remaining 5 children had only TAMs appearing either individually (n = 2), or as TAMs 1 (M41L, L210W, and T215Y) and 2 (D67N, K70R, and K219Q/E/R) appearing together (n = 3). These results suggest that "vertically transmitted" primary RTI-resistance mutations, K103N and Y181C, can persist over the years even in the absence of drug pressure and impact RTI treatment negatively, and that appearing patterns of RTI-resistance mutations among non-subtype B HIV-1-infected children could possibly be different from those reported in subtype B-infected children.
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PMID:Anti-retroviral drug resistance-associated mutations among non-subtype B HIV-1-infected Kenyan children with treatment failure. 1751 31

We have characterized, by transient-state kinetic methods, the polymerase and exonuclease activities of the human mitochondrial DNA polymerase (pol gamma) during reverse transcription, employing a synthetic oligonucleotide consisting of a DNA primer and an RNA template. In comparison with the kinetic parameters observed with a DNA template, the rate of correct deoxynucleotide incorporation was reduced 25-fold (5.5+/-0.2 s(-1)), whereas the dissociation constant (Kd) for nucleotide binding was increased 4-fold (12+/-1 microm). In addition, discrimination against mismatches was reduced approximately 20-fold to only 15,000 on average. The proofreading exonuclease favored the removal of an incorrect nucleotide (0.0021+/-0.0002 s(-1) for correct versus 0.034+/-0.004 s(-1) for incorrect), and the partitioning between incorporation beyond a mismatch (5.5x10(-5)+/-0.4x10(-5) s(-1)), and exonuclease removal of that mismatch favors removal of the mismatch. These data suggest that the "reverse transcriptase activity" of mitochondrial polymerase could be physiologically relevant. However, the enzyme stalls and is unable to efficiently incorporate beyond a single nucleotide with an RNA template. Additionally, we present a refined method for calculating net discrimination, which more accurately describes the contributions of correct and incorrect incorporation. The biological and biotechnological significance of these results are discussed.
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PMID:Fidelity and processivity of reverse transcription by the human mitochondrial DNA polymerase. 1771 45

We report a case (IC) of multidrug-resistant (MDR) HIV-1 infection in which the identification of the source patient (S) was supported by phylogenetic analysis of the pol gene and by the similarity of env sequences. HIV isolates from IC and S were characterized as non-syncytium viruses: a X4 variant (R(11) E(26)) was identified in both cases according to the V3 loop sequence. The pol mutational profile of IC included multiple protease and reverse-transcriptase inhibitor mutations similar to those in S. The lamivudine/tenofovir/tipranavir/ritonavir/enfuvirtide association was effective for IC but not for S.
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PMID:A multidrug-resistant (MDR) HIV type 1 infection in a homosexual man and identified source patient. 1796 Nov 18

In the pol gene of bovine immunodeficiency virus (BIV) there is a sequence, located between the reverse-transcriptase and integrase (IN)-encoding sequences, that is not found in HIV-1 pol gene and encodes a 74-residue polypeptide with homology to dUTPases. We have expressed two BIV IN versions that differ in their amino termini. The longer version, containing the 74-residue sequence, did not show any detectable 3'-end processing and strand transfer IN activities and performed only the IN-associated disintegration. Consequently, the shorter version, lacking the dUTPase-related residues, performed all three activities and is most likely similar to the viral enzyme. A comparison between BIV IN and the well-studied HIV-1 IN, with substrates that mimic the U5 LTR sequences of BIV, HIV-1 and another bovine lentivirus, Jembrana disease virus, revealed that the extra 3'-end sequence beyond the conserved "CA" is probably less important for IN activities than the sequence upstream to the "CA".
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PMID:Expression and characterization of the integrase of bovine immunodeficiency virus. 1797 81

DNA polymerase I gene was cloned and sequenced from the thermophilic bacterium Geobacillus caldoxylosilyticus TK4. The gene is 2,634 bp long and encodes a protein of 878 amino acids in length. The enzyme has a molecular mass of 99 kDa and shows sequence homology with DNA polymerase I from Bacillus species (89% identity). The gene was overexpressed in Escherichia coli and the purified enzyme was biochemically characterized. It has all of the primary structural elements necessary for DNA polymerase and 5' --> 3' exonuclease activity, but lacks the motifs required for 3' --> 5' exonuclease activity. 5' nuclease and 3' --> 5' exonuclease assays confirmed that Gca polymerase I has a double-stranded DNA-dependent 5' --> 3' nuclease activity but no 3' --> 5' exonuclease activity. Its specific activity was observed to be 495,000 U/mg protein, and K (D) (DNA) , K (D) (dNTP) , and K (pol) were found to be 0.19 nM, 22.64 microM, and 24.99 nucleotides(-1), respectively. The enzyme showed significant reverse-transcriptase activity (RT) with Mn(2+), but very little RT activity with Mg(2+). Its error rate was found to be 2.5 x 10(-5) which is comparable to that of the previously reported error rate for the E. coli DNA polymerase I. Two aromatic residues required for dideoxyribonucleotide triphosphate sensitivity (F712Y) and strand displacement activity (Y721F) were identified.
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PMID:A new DNA polymerase I from Geobacillus caldoxylosilyticus TK4: cloning, characterization, and mutational analysis of two aromatic residues. 1936 30

The polyoxin (POL) biosynthetic gene cluster (pol) was recently cloned from Streptomyces cacaoi subsp. asoensis. A 3.3 kb DNA fragment carrying an obvious open reading frame (polR), whose deduced product shows sequence similarity to SanG of Streptomyces ansochromogenes and PimR of Streptomyces natalensis, was revealed within the pol gene cluster. Disruption of polR abolished POL production, which could be complemented by the integration of a single copy of polR into the chromosome of the non-producing mutant. The introduction of an extra copy of polR in the wild-type strain resulted in increased production of POLs. The transcription start point (tsp) of polR was determined by S1 mapping. Reverse transcriptase PCR experiments showed that PolR is required for the transcription of 18 structural genes in the pol gene cluster. Furthermore, we showed that polC and polB, the respective first genes of two putative operons (polC-polQ2 and polA-polB) consisting of 16 and 2 of these 18 genes, have similar promoter structures. Gel retardation assays indicated that PolR has specific DNA-binding activity for the promoter regions of polC and polB. Our data suggest that PolR acts in a positive manner to regulate POL production by activating the transcription of at least two putative operons in the pol gene cluster.
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PMID:polR, a pathway-specific transcriptional regulatory gene, positively controls polyoxin biosynthesis in Streptomyces cacaoi subsp. asoensis. 1938 87

Reverse transcriptase (RT) of human immunodeficiency virus (HIV)-1 plays a key role in initiating viral replication and is an important target for developing anti-HIV drugs. Our previous study showed that two mutations (Y271A and I274A) in the turn RT (Gln(269)-Arg(277)) abrogated viral replication, but the replication capacity and RT activity was discordant. In this study, we further investigated why alanine substitutions at these two sites would affect viral replication. We found that both RT activity and RT protein were almost undetectable in viral particles of these two mutants, although the Pr160(gag-pol) mutants were properly expressed, transported and incorporated. Using protease inhibition assay, we demonstrated a correlation between the degradation of the RT mutants and the activity of viral protease. Our native gel analysis indicated that the mutations at 271 and 274 amino acids might cause conformational changes, leading to the formation of higher order oligomers instead of dimers, resulting in increased protein instability and susceptibility to viral protease. Thus, residues 271 and 274 are critical to RT stability and resistance to viral protease. The conservation of the two amino acid residues among different strains of HIV-1 lent further support to this conclusion. The knowledge gained here may prove useful in drug design.
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PMID:The y271 and i274 amino acids in reverse transcriptase of human immunodeficiency virus-1 are critical to protein stability. 1957 44

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