Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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 mutant catalase purified previously from acatalasemic dog liver was heat-labile but possessed normal activity, suggesting a mutation within the coding region distal from the catalytic site. The nucleotide and deduced amino acid sequences of acatalasemic beagle dog catalase were determined by analysis of cDNA obtained by 5'- and 3'-RACE and reverse transcriptase-polymerase chain reaction (RT-PCR) methods. Comparative analysis of cDNA sequences of normal and acatalasemic dog catalases indicated a single nucleotide difference where alanine(327) (G macro CT) was substituted with threonine (ACT). The mutant catalase, which was overexpressed in COS-1 cells, was heat-labile as previously observed with the purified enzyme from acatalasemic dog liver, indicating that this amino acid substitution can lead to structural instability. No catalase protein and activity were detected by immunoblotting and spectrophotomeric assay in acatalasemic dog reticulocytes although almost the same level of mRNA expression as that in the normal reticulocytes was observed. Pulse-labeling and immunoprecipitation examination indicated that the level of catalase synthesis in the acatalasemic dog reticulocytes was almost the same (approximately 80%) as that in the normal reticulocytes. On the other hand, the synthesized mutant catalase in reticulocytes was rapidly degraded (t(1/2): 1.8 h) compared with the normal catalase (t(1/2): 14.0 h) and this degradation was almost completely inhibited by lactacystin (LC). These results suggested that the proteolytic degradation mediated most likely by proteasome might be involved in disposing of the mutant catalase in acatalasemic erythroid cells.
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PMID:cDNA cloning of mutant catalase in acatalasemic beagle dog: single nucleotide substitution leading to thermal-instability and enhanced proteolysis of mutant enzyme. 1113 58

TSAO derivatives represent a class of nonnucleoside reverse transcriptase inhibitors (NNRTIs) that consistently select for the Glu138Lys resistance mutation in HIV-1 reverse transcriptase (RT). Seven RT mutants (i.e., Ala, Asp, Gln, Gly, Lys, Phe, and Tyr) were constructed by site-directed mutagenesis. The mutant Glu138Asp, Glu138Lys, Glu138Gln, Glu138Ala, and Glu138Gly RTs retained marked catalytic activity. In contrast, the Glu138Phe and Glu138Tyr RT mutants showed poor RNA-dependent DNA polymerase activity (30 and 4% of wild-type, respectively). TSAO derivatives lost their inhibitory activity against all mutant enzymes, except against the closely related Glu138Asp RT mutant that remained as sensitive to TSAOs as did wild-type RT. Other NNRTIs, including delavirdine, emivirine, and UC-781, and the NRTI ddGTP retained pronounced inhibitory activity against all mutant enzymes. When the amino acid mutations at position 138 of RT were introduced in recombinant virus clones, the sensitivity/resistance spectrum obtained toward the TSAOs and other NNRTIs was similar to those observed for the isolated recombinant mutant enzymes. The Glu138Lys RT mutant virus had the most marked resistance to TSAOs, followed by the Glu138Gln, Glu138Phe, Glu138Gly, Glu138Tyr, and Glu138Ala virus mutants. The Glu138Asp RT mutant virus kept full sensitivity to the TSAO derivatives. Mixtures of Glu138Lys RT mutant virus with the other virus clones mutated at the 138 position resulted in all cases, except for the Glu138Asp and Glu138Gly RT mutant viruses, in an outgrowth of the Glu138Lys RT mutant virus. Since the Glu138Lys RT proved most resistant to TSAO derivatives, was among the most catalytically efficient enzymes, and resulted in highly replication-competent virus, our data explain why the Glu138Lys RT mutant virus strains but not virus strains containing other amino acids at position 138 invariably emerge in cell cultures under TSAO drug pressure.
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PMID:Site-directed mutagenesis of human immunodeficiency virus type 1 reverse transcriptase at amino acid position 138. 1116 23

Phospholipase A2 (PLA2) activity was investigated in various tissues of male and female red sea bream. In both male and female fishes, the specific activity of PLA2 in the gills was 70 times higher than that in other tissues, such as the adipose tissue, intestine, and hepatopancreas. Therefore, we tried to purify PLA2 from the gill filaments of red sea bream to near homogeneity by sequential chromatography on Q-Sepharose Fast Flow, Butyl-Cellulofine, and DEAE-Sepharose Fast Flow columns, and by reversed-phase high-performance liquid chromatography. Two minor and one major PLA2, tentatively named G-1, G-2 and G-3 PLA2, were purified, and all showed a single band with an apparent molecular mass of approximately 15 kDa by sodium dodecylsulfate-polyacrylamide gel electrophoresis. The exact molecular mass values of G-1, G-2, and G-3 PLA2 were 14,040, 14,040 and 14,005 Da, respectively. G-1, G-2, and G-3 PLA2 had a Cys 11 and were all identical in N-terminal amino acid sequences from Ala-1 to Glu-56. A full-length cDNA encoding G-3 PLA2 was cloned by reverse transcriptase-polymerase chain reaction and rapid amplification of cDNA ends methods, and G-3 PLA2 was found to be classified to group IB PLA2 from the deduced amino acid sequence. G-1, G-2, and G-3 PLA2 had a pH optimum in an alkaline region at around pH 9-10 and required Ca2+ essentially for enzyme activity, using a mixed-micellar phosphatidylcholine substrate with sodium cholate. These results demonstrate that three group I PLA2, G-1, G-2, and G-3 PLA2, are expressed in the gill filaments of red sea bream.
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PMID:Purification, characterization, and molecular cloning of group I phospholipases A2 from the gills of the red sea bream, Pagrus major. 1120 98

The molecular cloning of the t(5;10)(q33;q22) associated with atypical chronic myeloid leukemia (CML) is reported. Fluorescence in situ hybridization (FISH), Southern blot, and reverse transcriptase- polymerase chain reaction analysis demonstrated that the translocation resulted in an H4/platelet-derived growth factor receptor betaR (PDGFbetaR) fusion transcript that incorporated 5' sequences from H4 fused in frame to 3' PDGFbetaR sequences encoding the transmembrane, WW-like, and tyrosine kinase domains. FISH combined with immunophenotype analysis showed that t(5;10)(q33;q22) was present in CD13(+) and CD14(+) cells but was not observed in CD3(+) or CD19(+) cells. H4 has previously been implicated in pathogenesis of papillary thyroid carcinoma as a fusion partner of RET. The H4/RET fusion incorporates 101 amino acids of H4, predicted to encode a leucine zipper dimerization domain, whereas the H4/PDGFbetaR fusion incorporated an additional 267 amino acids of H4. Retroviral transduction of H4/PDGFbetaR, but not a kinase-inactive mutant, conferred factor-independent growth to Ba/F3 cells and caused a T-cell lymphoblastic lymphoma in a murine bone marrow transplantation assay of transformation. Mutational analysis showed that the amino-terminal H4 leucine zipper domain (amino acids 55-93), as well as H4 amino acids 101 to 386, was required for efficient induction of factor-independent growth of Ba/F3 cells. Tryptophan-to-alanine substitutions in the PDGFbetaR WW-like domain at positions 566/593, or tyrosine-to-phenylalanine substitutions at PDGFbetaR positions 579/581 impaired factor-independent growth of Ba/F3 cells. H4/PDGFbetaR is an oncoprotein expressed in t(5;10)(q33;q22) atypical CML and requires dimerization motifs in the H4 moiety, as well as residues implicated in signal transduction by PDGFbetaR, for efficient induction of factor-independent growth of Ba/F3 cells. (Blood. 2001;97:3910-3918)
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PMID:H4(D10S170), a gene frequently rearranged in papillary thyroid carcinoma, is fused to the platelet-derived growth factor receptor beta gene in atypical chronic myeloid leukemia with t(5;10)(q33;q22). 1138 34

When human immunodeficiency virus type 1 (HIV-1) is selected for resistance to 3TC, the methionine normally present at position 184 is replaced by valine or isoleucine. Position 184 is the X of the conserved YXDD motif; positions 185 and 186 form part of the triad of aspartic acids at the polymerase active site. Structural and biochemical analysis of 3TC-resistant HIV-1 reverse transcriptase (RT) led to a model in which a beta-branched amino acid at position 184 would act as a steric gate. Normal deoxynucleoside triphosphates (dNTPs) could still be incorporated; the oxathiolane ring of 3TCTP would clash with the beta branch of the amino acid at position 184. This model can also explain 3TC resistance in feline immunodeficiency virus and human hepatitis B virus. However, it has been reported (14) that murine leukemia viruses (MLVs) with valine (the amino acid present in the wild type), isoleucine, alanine, serine, or methionine at the X position of the YXDD motif are all resistant to 3TC. We prepared purified wild-type MLV RT and mutant MLV RTs with methionine, isoleucine, and alanine at the X position. The behavior of these RTs was compared to those of wild-type HIV-1 RT and of HIV-1 RT with alanine at the X position. If alanine is present at the X position, both MLV RT and HIV-1 RT are relatively resistant to 3TCTP in vitro. However, the mutant enzymes were impaired relative to their wild-type counterparts; there appears to be steric hindrance for both 3TCTP and normal dNTPs.
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PMID:YADD mutants of human immunodeficiency virus type 1 and Moloney murine leukemia virus reverse transcriptase are resistant to lamivudine triphosphate (3TCTP) in vitro. 1141 98

Bacterial endotoxin (lipopolysaccharide; LPS) augments the hepatotoxicity of a number of xenobiotics including allyl alcohol. The mechanism for this effect is known to involve the inflammatory response elicited by LPS. Upregulation of cyclooxygenase-2 (COX-2) and production of eicosanoids are important aspects of inflammation, therefore studies were undertaken to investigate the role of COX-2 in LPS-induced enhancement of liver injury from allyl alcohol. Rats were pretreated (iv) with a noninjurious dose of LPS or sterile saline vehicle and 2 h later were treated (ip) with a noninjurious dose of allyl alcohol or saline vehicle. COX-2 mRNA was determined by semiquantitative reverse transcriptase-polymerase chain reaction (RT-PCR), and liver injury was assessed from activities in serum of alanine and aspartate aminotransferases (ALT and AST, respectively) and from histology. Liver injury was observed only in rats cotreated with LPS and allyl alcohol. Serum ALT activity was increased by 4 h after administration of LPS and continued to increase through 8 h. COX-2 mRNA was detectable at low levels in livers from rats receiving only the vehicles at any time up to 8 h. Expression of COX-2 mRNA was increased by 30 min after administration of LPS and remained elevated through 6 h. Allyl alcohol treatment alone caused an increase in COX-2 mRNA at 4 h (2 h after allyl alcohol) that lasted less than 2 h. In livers from rats cotreated with LPS and allyl alcohol, levels of COX-2 mRNA were greater than levels seen with either LPS or allyl alcohol alone. The increased expression of COX-2 mRNA was accompanied by an increase in the concentration of prostaglandin (PG) D(2) in plasma. Plasma PGD(2) concentration was increased to a greater extent in rats treated with LPS plus allyl alcohol compared to allyl alcohol or LPS alone. Pretreatment with the COX-2 selective inhibitor, NS-398, abolished the increase in plasma PGD(2) and reduced the increase in ALT and AST activities observed in rats cotreated with LPS and allyl alcohol. NS-398 did not affect liver injury from allyl alcohol alone administered at a larger, hepatotoxic dose. In addition, ibuprofen, a nonselective inhibitor of cyclooxygenases, did not protect against liver injury from LPS plus allyl alcohol. In isolated hepatocytes PGD(2), but not PGE(2), reduced the concentration of allyl alcohol required to cause half-maximal cytotoxicity. These results suggest that products of COX-2 play a role in the augmentation of allyl alcohol-induced liver injury by LPS.
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PMID:Involvement of cyclooxygenase-2 in the potentiation of allyl alcohol-induced liver injury by bacterial lipopolysaccharide. 1144 26

Thai bitter gourd protein (MRK29) was isolated from Momordica charantia ripe fruit and seed. The purification was performed by ammonium sulfate fractionation and gel filtration chromatography. MRK29 possessed one isoelectric point of (pI) > or = 9, and the time of flight mass spectrum (TOFMS) indicated its molecular weight at 28.6 kD. The twenty amino acid sequence from the N-terminus was in the following order: 1Asp Val Asn Phe Arg Leu Ser Gly Ala 10Asp Pro Arg X Tyr Gly Met Phe Ile Glu 20Asp. MRK29 inhibited the HIV-1 reverse transcriptase with 50% IR at the concentration of 18 micrograms/ml. MRK29 was concentrated in the 30-60% salt precipitated fraction, at which the concentration of 0.175 microgram/ml exerted 82% reduction of viral core protein p24 expression in HIV-infected cells. MRK29 might have modulatory role on immune cells, because it increased 3-fold TNF activity.
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PMID:HIV inhibitor from Thai bitter gourd. 1145 53

A group of conserved hydrophobic residues faces the interior of the coiled-coil-like structure within the N-terminal domain of the human immunodeficiency virus type 1 (HIV-1) capsid protein (CA). It has been suggested that these residues are important for maintaining stable structure and functional activity. To investigate this possibility, we constructed two HIV-1 clones, in which Trp23 or Phe40 was changed to Ala. We also constructed a third mutant, D51A, which has a mutation that destroys a salt bridge between Pro1 and Asp51. All three mutants are replication defective but produce virus particles. Mutant virions contain all of the viral proteins, although the amount and stability of CA are decreased and levels of virion-associated integrase are reduced. The mutations do not affect endogenous reverse transcriptase activity; however, the mutants are blocked in their ability to initiate reverse transcription in infected cells and no minus-strand strong-stop DNA is detected. The defect in reverse transcription is associated with striking defects in the morphology of mutant virus cores, as determined by transmission electron microscopy. Our data indicate that the mutations made in this study disrupt CA structure and prevent proper maturation of virus cores. We propose that this results in a defect in core stability or in an early postentry event preceding reverse transcription.
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PMID:Human immunodeficiency virus type 1 N-terminal capsid mutants that exhibit aberrant core morphology and are blocked in initiation of reverse transcription in infected cells. 1153 99

An amino acid mutation at residue 284 (Ala to Thr) in the VP2 protein of infectious bursal disease viruses (IBDVs) has been correlated with the ability to replicate in cell culture. In this study, we designed a molecular test for this mutation. The reverse transcriptase/polymerase chain reaction (RT/PCR) was used to amplify a 743-bp region of the VP2 gene that contained the codon for amino acid 284. The restriction endonuclease NgoMIV was selected for this study because the first three nucleotides of its six-base recognition sequence are the codon responsible for the amino acid alanine at residue 284. The RT/PCR products from 10 known pathogenic and 16 vaccine strains of IBDV were examined for the presence or absence of the NgoMIV site. We also examined 189 field strains of IBDV for the NgoMIV site. All 10 known pathogenic IBDV strains contained the NgoMIV site, indicating they contained alanine at residue 284. None of the vaccine strains had the NgoMIV site, suggesting they had threonine or another amino acid at residue 284. The results suggest that the presence of this NgoMIV site can be used as a marker for the identification of wild-type (nonvaccine) IBDV strains. The RT/PCR products from 152 (80.4%) of the field strains had the NgoMIV site and thus have the potential to be wild-type pathogenic viruses. The RT/PCR products from 37 (19.6%) of the field strains were not cleaved by NgoMIV and thus are potentially attenuated vaccine strains. Molecular diagnostic assays have been used to place IBDV strains into genetically related groups. The identification of this genetic marker now makes it possible to identify viruses that are wild-type strains that have the potential to be pathogenic viruses.
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PMID:Use of a genetic marker for wild-type potentially pathogenic infectious bursal disease viruses. 1156 47

The heterodimeric human immunodeficiency virus type 1 reverse transcriptase (HIV-1 RT) is composed of p66 and p51 subunits, p66 being the catalytic subunit. Our earlier investigation on the role of p51 in the catalytic process has shown that the p51 subunit facilitates the loading of the p66 subunit onto the template primer (TP). We had postulated that the beta7-beta8 loop of the p51 subunit may be involved in opening the polymerase cleft of p66 for DNA binding [Pandey, V. N., et al. (1996) Biochemistry 35, 2168]. We report here that deletion or alanine substitution of four residues of the beta7-beta8 loop results in severe impairment of the polymerase function of the heterodimeric enzyme. The enzyme activity was restored to the wild-type levels when the mutant p66 subunit was dimerized with the wild-type p51, suggesting that the intact beta7-beta8 loop in the p51 subunit is indispensable for the catalytic function of p66. Further, the template primer binding ability of the enzyme was significantly reduced upon deletion or alanine substitution in the beta7-beta8 loop. Interestingly, the loss of the TP binding ability of the mutant p66 was restored upon dimerization with wild-type p51. Examination of the glycerol gradient ultracentrifugation analysis revealed that while the wild-type HIV-1 RT sediments as a dimeric protein, the mutant enzymes carrying deletion or alanine substitution in both the subunits sediment predominantly as monomeric proteins, suggesting their inability to form stable dimers. In contrast, mutant p66 dimerized with wild-type p51 (p66delta/p51WT and p66Ala/p51WT) sedimented at the dimeric position. Taken together, these results clearly implicate the importance of the beta7-beta8 loop of p51 in the formation of stable functional heterodimers.
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PMID:The beta7-beta8 loop of the p51 subunit in the heterodimeric (p66/p51) human immunodeficiency virus type 1 reverse transcriptase is essential for the catalytic function of the p66 subunit. 1158 49


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