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:2.7.7.48 (transcriptase)
9,479 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A putative Candida albicans homologue of Saccharomyces cerevisiae MOT2 (modulator of transcription) has been cloned and analyzed. A cDNA fragment corresponding to a portion of S. cerevisiae MOT2 was used to isolate a similar C. albicans gene (CaMOT2). CaMOT2 is comprised of two exons of 50 bp and 1,714 bp, respectively, with a single 82 bp intron located near the 5' end of the gene. The gene encodes a protein (CaMot2p) with an estimated mass of 67 kDa. The 5' region of the gene shows sequence homology with S. cerevisiae MOT2, whereas no significant similarity was observed in the 3' region. Similarly, the N-terminal portion of C. albicans Mot2p exhibits approximately 80% homology with S. cerevisiae Mot2p, while no significant homology to any known protein was observed in the carboxy-terminal half of the C. albicans protein. The N-terminal portion of CaMot2p contains a cysteine-rich domain (amino acids 18-62). The distribution of the cysteine residues identifies CaMot2p as a zinc-finger protein. The data suggest two potential Zn-binding sites, similar to the arrangement found in S. cerevisiae. Reverse-transcriptase polymerase chain reaction was used to compare the level of CaMOT2 expression between C. albicans grown in vitro and growth during in vivo infection in the rat model of oral candidiasis. The results showed CaMOT2 is down-regulated during growth in the rat oral cavity compared to in vitro culture. Although the function of C. albicans MOT2 has not been determined, comparison to S. cerevisiae MOT2 suggests the gene product may act as a general negative regulator.
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PMID:Isolation and characterization of the Candida albicans MOT2 gene. 1127 Apr 11

ADAMTS (A Disintegrin And Metalloproteinase domain, with ThromboSpondin type-1 modules) is a recently described family of zinc-dependent proteases which play important roles in a variety of normal and pathological conditions, including arthritis and cancer. In this work, we report the identification and cloning of cDNAs encoding seven new human ADAMTSs. These novel enzymes have been called ADAMTS-13, -14, -15, -16, -17, -18, and -19. All of them show a domain organization similar to that of previously characterized family members, consisting of a signal sequence, a propeptide, a metalloproteinase domain, a disintegrin-like domain, a cysteine-rich region, and a variable number of TS-1 repeats. Expression analysis revealed that these ADAMTS genes are mainly expressed in fetal tissues, especially in lung (ADAMTS14, ADAMTS16, ADAMTS17, ADAMTS18, and ADAMTS19), kidney (ADAMTS14, ADAMTS15, and ADAMTS16), and liver (ADAMTS13, ADAMTS15 and ADAMTS18). Reverse transcriptase--polymerase chain reaction analysis also revealed the expression of some of these new ADAMTSs in different human adult tissues, such as prostate (ADAMTS13, ADAMTS17, and ADAMTS18), and brain (ADAMTS13, ADAMTS16, ADAMTS17, and ADAMTS18). High levels of ADAMTSs transcripts were also observed in some tumor biopsies and cells lines, including osteosarcomas (ADAMTS19), melanoma and colon carcinoma cells (ADAMTS13). Chromosomal location analysis indicated that the seven identified ADAMTS genes are dispersed in the human genome mapping to 9q34, 10q21, 11q25, 5p15, 15q24, 16q23, and 5q31, respectively. According to these results, together with a comparative analysis of ADAMTSs in other eukaryotic organisms, we conclude that these enzymes, with at least 18 distinct members encoded within the human genome, represent an example of a widely expanded protease family during metazoan evolution.
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PMID:Cloning, expression analysis, and structural characterization of seven novel human ADAMTSs, a family of metalloproteinases with disintegrin and thrombospondin-1 domains. 1186 12

A complementary DNA (cDNA) encoding the eggshell zona radiata protein (RBTZR: AF407574) has been cloned from the liver of estradiol-17beta (E(2))-treated rainbow trout (Oncorhynchus mykiss) by reverse-transcriptase polymerase chain reaction (RT-PCR). A set of degenerate primers homologous to the highly conserved cysteine-rich region of the zona radiata protein gene from salmon, winter flounder, medaka and carp were used for the initial RT-PCR. The resulting PCR product was cloned, sequenced and identified as the Zrp gene fragment based on amino acid sequence similarities. Based on the Zrp sequence from the initial PCR, a pair of gene-sequence primers was designed for 3'- and 5'- random amplification of cDNA ends (RACE). Cloning and sequencing of RACE products showed a 1349-bp Zrp gene encoding a 403-amino acid protein with a theoretical molecular mass of approximately 45 kDa. Alignment of the deduced amino acid sequence reveals that RbtZR is similar to piscine and mammalian zona pellucida proteins. The RbtZR gene, together with the estrogen receptor (ER) and vitellogenin (Vtg) genes, was further characterized and comparatively studied for transcriptional and translational expression in xenoestrogen- (nonylphenol, NP) and E(2)-treated juvenile rainbow trout in a time-course experiment. Northern and slot blot analysis showed that the RbtZR mRNA was expressed, in parallel with the ER and Vtg mRNA, in both NP- and E(2)-treated juvenile rainbow trout. Indirect enzyme-linked immunosorbent assay (ELISA) using monoclonal antibody raised against Atlantic salmon Zrp indicated the translational expression of RbtZR protein in blood plasma samples from NP- and E(2)-treated juvenile trout. The differential time-dependent transcriptional and translational expression and use of Zrp, ER and Vtg as sensitive biomarkers in environmental monitoring of endocrine disrupters in fish is discussed.
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PMID:Molecular cloning of rainbow trout (Oncorhynchus mykiss) eggshell zona radiata protein complementary DNA: mRNA expression in 17beta-estradiol- and nonylphenol-treated fish. 1203 56

Marfan syndrome (MFS) and other type 1 fibrillinopathies result from mutations in the FBN1 gene, which encodes the connective-tissue microfibrillar protein fibrillin 1. Attempts at correlating genotype with phenotype have suggested considerable heterogeneity. To define the subtype of fibrillinopathy caused by premature termination codon (PTC) mutations, we integrate genotype information and mRNA expression levels with clinical and biochemical phenotypes. By screening the entire FBN1 gene for mutations, we identified 34 probands with PTC mutations. With the exception of two recurrent mutations, these nonsense and frameshift mutations are unique and span the entire FBN1 gene, from IVS2 to IVS63. Allele-specific reverse-transcriptase polymerase chain reaction analyses revealed differential allelic expression in all studied samples, with variable reduction of the mutant transcript. Fibrillin protein synthesis and deposition into the extracellular matrix were studied by pulse-chase analysis of cultured fibroblasts. In the majority of PTC samples, synthesis of normal-sized fibrillin protein was approximately 50% of control levels, but matrix deposition was disproportionately decreased. Probands and mutation-positive relatives were clinically evaluated by means of a standardized protocol. Only 71% (22/31) of probands and 58% (14/24) of the mutation-positive family members met current clinical diagnostic criteria for MFS. When compared with our previously reported study group of 44 individuals with FBN1 cysteine substitutions, the PTC group showed statistically significant differences in the frequency of individual signs, especially in the ocular manifestations. Whereas large-joint hypermobility was more common, lens dislocation and retinal detachment were distinctly less common in the PTC group. We conclude that PTC mutations have a major impact on the pathogenesis of type 1 fibrillinopathies and convey a distinct biochemical, clinical, and prognostic profile.
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PMID:Premature termination mutations in FBN1: distinct effects on differential allelic expression and on protein and clinical phenotypes. 1206 74

The structure and distribution of PC5-A, a prohormone convertase that is thought to be involved in post-translational processing of peptide hormone and neuropeptide precursors, have not been investigated in submammalian vertebrates. In the present study, we characterized the cDNA encoding PC5-A in the European green frog Rana esculenta. The frog PC5-A cDNA encodes a 913-amino acid protein that encompasses a 28-amino acid signal peptide, the Asp/His/Ser catalytic triad found in all serine proteinases of the subtilisin family, and two potential N-linked glycosylation sites located in a C-terminal cysteine-rich domain. Reverse transcriptase polymerase chain reaction amplification showed that PC5-A mRNA is expressed in various organs including the brain, spinal cord, pituitary, lung, liver, intestine, and testis, but not in the stomach and pancreas. The distribution of PC5-A mRNA in the frog brain was studied by in situ hybridization histochemistry. Intense expression was observed in the mitral cellular layer of the olfactory bulb, the nucleus of the diagonal band of Broca, the anterior preoptic area, and the suprachiasmatic and ventral hypothalamic nuclei. The expression pattern of PC5-A mRNA in the central nervous system of anuran amphibians was consistent with the implication of this prohormone convertase in the processing of various neuropeptide precursors.
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PMID:Molecular characterization of the cDNA and localization of the mRNA encoding the prohormone convertase PC5-A in the European green frog. 1250 14

Degenerate oligonucleotide primers derived from conserved serine protease inhibitors were used to amplify a 90-base pair (bp) amplicon from an Ancylostoma caninum adult-stage complementary deoxyribonucleic acid (cDNA) library by polymerase chain reaction (PCR). The amplicon was labeled and used as a probe to screen the library, and a 2,300-bp cDNA clone was identified. The 5' end of the molecule was obtained from adult cDNA by 5'-RACE. The complete sequence named A. caninum Kunitz-type protease inhibitor (Ac-kpi-1) was 2,371 bp and encoded a 759-amino acid open reading frame. The deduced amino acid sequence had a calculated molecular weight of 84,886 Da and contained an amino terminal signal peptide, suggesting that the protein is secreted. Analysis of the predicted protein sequence indicates 12 highly conserved Kunitz-type serine protease inhibitor domains connected by short, conserved spacers. On the basis of sequence analysis, the first 11 domains are predicted to be active serine protease inhibitors based on the P1 amino acid. Domains 5-8 have identical amino acid sequences, and the remaining domains are 38-88% identical. Domain 12 lacks several of the conserved cysteine residues and has an atypical amino acid in the P1 position, suggesting that it is nonfunctional. Reverse transcriptase-PCR indicated that the Ac-kpi-1 messenger ribonucleic acid is present in egg, L1, L3, and adult stages but is most abundant in the adult stage. Ac-KPI-1 is most similar in domain architecture to several extracellular matrix proteins involved in cellular remodeling during insect development. In addition, there are 44 nematode proteins containing one or more Kunitz domains in GenBank, including several with multiple domains.
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PMID:Molecular cloning of a novel multidomain Kunitz-type proteinase inhibitor from the hookworm Ancylostoma caninum. 1276 Jun 67

Inherited deficiency of the mitochondrial protein frataxin causes neural and cardiac cell degeneration, and Friedreich's ataxia. Five hypotheses for frataxin's mitochondrial function have been generated, largely from work in non-human cells: iron transporter, iron-sulfur cluster assembler, iron-storage protein, antioxidant and stimulator of oxidative phosphorylation. We analyzed gene expression in three human cell types using microarrays, and identified just 48 transcripts whose expression was significantly frataxin-dependent in at least two cell types. Significant decreases in seven transcripts occurred in the sulfur amino acid (SAA) biosynthetic pathway and the iron-sulfur cluster (ISC) biosynthetic pathway to which it is connected. By contrast, we did not observe a single frataxin-dependent transcript that fits with the other four current hypotheses. Quantitative reverse-transcriptase PCR analysis of ISC-S and rhodanese transcripts confirmed that the expression of these genes involved in ISC metabolism was lower in mutants. Amino acid analysis confirmed the defect in SAA metabolism: homocystine, cysteine, cystathionine and serine were significantly decreased in frataxin-deficient cell extracts and mitochondria. An ISC defect was further confirmed by observing decreases in succinate dehydrogenase and aconitase activities, whose activities require ISCs. The ISC-U scaffold protein was specifically decreased in frataxin-deficient cells, suggesting a role for frataxin in its expression or maintenance, and sodium sulfide partially rescued the oxidant-sensitivity of the FRDA cells. Also, multiple transcripts involved in the Fas/TNF/INF apoptosis pathway were up-regulated in frataxin-deficient cells, consistent with a multi-step mechanism of Friedreich's ataxia pathophysiology, and suggesting alternative possibilities for therapeutic intervention.
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PMID:Decreased expression of genes involved in sulfur amino acid metabolism in frataxin-deficient cells. 1283 93

A full-length cDNA clone encoding a cytosolic isoform of serine acetyltransferase (SATase; EC 2.3.1.30) was isolated by screening a soybean seedling cDNA library with a (32)P-labeled expressed sequence tag. Nucleotide sequence analysis of the isolated cDNA revealed a single open-reading frame of 858 base pairs encoding a 30-kDa polypeptide. The deduced amino acid sequence of soybean SATase revealed significant homology with other plant SATases. Analysis of genomic DNA by Southern blotting indicated that SATase is encoded by a small gene family. The authenticity of the isolated SATase cDNA was confirmed by the expression of the cDNA in an Escherichia coli cysteine-auxotrophic mutant resulting in the growth of the mutant in minimal medium without cysteine. Expression of soybean SATase in E. coli resulted in the production of a 34-kDa protein that was subsequently purified by nickel-affinity column chromatography. The purified protein exhibited SATase activity, indicating that the E. coli-expressed protein is a functionally active SATase. The recombinant soybean SATase was inhibited by l-cysteine, the end product of the cysteine biosynthetic pathway. Antibodies raised against the recombinant soybean SATase cross-reacted with a 34-kDa protein from Arabidopsis leaves, but failed to detect any proteins from soybean leaves and seeds. Reverse transcriptase-polymerase chain reaction analysis indicated that SATase mRNA was expressed at low levels during soybean seed development. In comparison to Arabidopsis leaves, the SATase activity was several-fold lower in soybean leaves and seeds, suggesting that SATase is a low-abundance enzyme.
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PMID:Sulfur assimilation in soybean ( Glycine max [L.] Merr.): molecular cloning and characterization of a cytosolic isoform of serine acetyltransferase. 1458 54

Numerous invertebrate species belonging to several phyla cannot synthesize sterols de novo and rely on a dietary source of the compound. SCPx (sterol carrier protein 2/3-oxoacyl-CoA thiolase) is a protein involved in the trafficking of sterols and oxidation of branched-chain fatty acids. We have isolated SCPx protein from Spodoptera littoralis (cotton leafworm) and have subjected it to limited amino acid sequencing. A reverse-transcriptase PCR-based approach has been used to clone the cDNA (1.9 kb), which encodes a 57 kDa protein. Northern blotting detected two mRNA transcripts, one of 1.9 kb, encoding SCPx, and one of 0.95 kb, presumably encoding SCP2 (sterol carrier protein 2). The former mRNA was highly expressed in midgut and Malpighian tubules during the last larval instar. Furthermore, constitutive expression of the gene was detected in the prothoracic glands, which are the main tissue producing the insect moulting hormone. There was no significant change in the 1.9 kb mRNA in midgut throughout development, but slightly higher expression in the early stages. Conceptual translation of the cDNA and a database search revealed that the gene includes the SCP2 sequence and a putative peroxisomal targeting signal in the C-terminal region. Also a cysteine residue at the putative active site for the 3-oxoacyl-CoA thiolase is conserved. Southern blotting showed that SCPx is likely to be encoded by a single-copy gene. The mRNA expression pattern and the gene structure suggest that SCPx from S. littoralis (a lepidopteran) is evolutionarily closer to that of mammals than to that of dipterans.
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PMID:Characterization of a sterol carrier protein 2/3-oxoacyl-CoA thiolase from the cotton leafworm (Spodoptera littoralis): a lepidopteran mechanism closer to that in mammals than that in dipterans. 1514 83

Diacylglycerol kinase (DGK) plays an important role in signal transduction through modulating the balance between two signaling lipids, diacylglycerol and phosphatidic acid. Here we identified a tenth member of the DGK family designated DGK kappa. The kappa-isozyme (1271 amino acids, calculated molecular mass, 142 kDa) contains a pleckstrin homology domain, two cysteine-rich zinc finger-like structures, and a separated catalytic region as have been found commonly for the type II isozymes previously cloned (DGKdelta and DGKeta). The new DGK isozyme has additionally 33 tandem repeats of Glu-Pro-Ala-Pro at the N terminus. Reverse transcriptase-PCR showed that the DGK kappa mRNA is most abundant in the testis, and to a lesser extent in the placenta. DGK kappa, when expressed in HEK293 cells, was persistently localized at the plasma membrane even in the absence of cell stimuli. Deletion analysis revealed that the short C-terminal sequence (amino acid residues 1199-1268) is necessary and sufficient for the plasma membrane localization. Interestingly, DGK kappa, but not other type II DGKs, was specifically tyrosine-phosphorylated at Tyr78 through the Src family kinase pathway in H2O2-treated cells. Moreover, H2O2 selectively inhibited DGK kappa activity in a Src family kinase-independent manner, suggesting that the isozyme changes the balance of signaling lipids in the plasma membrane in response to oxidative stress. The expression patterns, subcellular distribution, and regulatory mechanisms of DGK kappa are distinct from those of DGKdelta and DGKeta despite high structural similarity, suggesting unique functions of the individual type II isozymes.
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PMID:Identification and characterization of a novel human type II diacylglycerol kinase, DGK kappa. 1621 Mar 24


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