Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A Dictyostelium discoideum repetitive element composed of long repeats of the codon (AAC) is found in developmentally regulated transcripts. The concentration of (AAC) sequences is low in mRNA from dormant spores and growing cells and increases markedly during spore germination and multicellular development. The sequence hybridizes to many different sized Dictyostelium DNA restriction fragments indicating that it is scattered throughout the genome. Four cDNA clones isolated contain (AAC) sequences in the deduced coding region. Interestingly, the (AAC)-rich sequences are present in all three reading frames in the deduced proteins, i.e., AAC (asparagine), ACA (threonine) and CAA (glutamine). Three of the clones contain only one of these in-frame so that the individual proteins carry either asparagine, threonine, or glutamine clusters, not mixtures. However, one clone is both glutamine- and asparagine-rich. The (AAC) portion of the transcripts are reiterated 300 times in the haploid genome while the other portions of the cDNAs represent single copy genes, whose sequences show no similarity other than the (AAC) repeats. The repeated sequence is similar to the opa or M sequence found in Drosophila melanogaster notch and homeo box genes and in fly developmentally regulated transcripts. The transcripts are present on polysomes suggesting that they are translated. Although the function of these repeats is unknown, long amino acid repeats are a characteristic feature of extracellular proteins of lower eukaryotes.
Mol Gen Genet 1989 Sep
PMID:Nucleotide sequences of Dictyostelium discoideum developmentally regulated cDNAs rich in (AAC) imply proteins that contain clusters of asparagine, glutamine, or threonine. 251 21

The tyrosine-67 to phenylalanine mutated rat cytochrome c is similar to the unmutated protein in its spectral, reduction potential, and enzymic electron-transfer properties. However, the loss of the 695-nm band, characteristic of the ferric form of the normal low-spin physiologically active configuration, occurs 1.2 pH units higher on the alkaline side and 0.7 pH unit lower on the acid side. Similarly, the heme iron-methionine-80 sulfur bond is more stable to temperature, with the midpoint of the transition being 30 degrees C higher, corresponding to an increase in delta H of 5 kcal/mol (1 cal = 4.184 J), partially mitigated by an increase of 11 entropy units in delta S. Urea has only slightly different effects on the two proteins. These phenomena are best explained by considering that the loss of one of the three hydrogen-bonding side chains, tyrosine-67, asparagine-52, and threonine-78, which hold an internal water molecule on the "left, lower front" side of the protein [Takano, T. & Dickerson, R. E. (1981) J. Mol. Biol. 153, 95-115], is sufficient to prevent its inclusion in the mutant protein, leading to a more stable structure, and, as indicated by preliminary proton NMR two-dimensional phase-sensitive nuclear Overhauser effect spectroscopy analyses, a reorganization of this area. This hypothesis predicts that elimination of the hydrogen-bonding ability of residue 52 or 78 would also result in cytochromes c having similar properties. It is not obvious why the space-filling structure involving the internalized water molecule that leads to a destabilization energy of about 3 kcal/mol should be subject to extreme evolutionary conservation, when a more stable and apparently fully functional structure is readily available.
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PMID:Structural significance of an internal water molecule studied by site-directed mutagenesis of tyrosine-67 in rat cytochrome c. 254 35

Products of the fibroblast growth factor-related proto-oncogene int-2 have been detected by using a monoclonal antibody and polyclonal antisera raised against synthetic peptides predicted from the DNA sequence. COS-1 monkey cells transfected with int-2 DNA linked to the simian virus 40 early promoter contained at least four int-2-specific proteins, presumably representing modified forms of the expected 27-kilodalton primary translation product. The level of expression was increased approximately six- to eightfold by mutation of sequences around the presumed initiation codon, negating their capacity to encode a short oligopeptide in the +1 reading frame. Both tunicamycin inhibition and in vitro translation experiments indicated that some of the modifications correspond to asparagine-linked glycosylation, for which the sequence predicts a single site. In line with the similarities between INT-2 and other fibroblast growth factors, the in vitro translation products functioned as weak mitogens for mammary epithelial cells.
Mol Cell Biol 1989 Nov
PMID:Detection and characterization of the fibroblast growth factor-related oncoprotein INT-2. 255 43

Human CG, a member of the glycoprotein hormone family that includes LH, FSH, and TSH, is composed of two nonidentical subunits each containing two asparagine linked (N-linked) oligosaccharides. The role of the oligosaccharides in the action of these hormones is unclear. To examine the structure-activity relationships of the glycoprotein hormone oligosaccharides using nonenzymatic and nonchemical methods, we transfected CG subunit genes into mutant cell lines derived from Chinese hamster ovary cells. Two mutant cell lines that synthesize truncated oligosaccharides were used. Cell line 15B, lacking N-acetylglucosaminyltransferase I, synthesizes N-linked carbohydrates containing Man5 oligomannosyl structures, and 1021, defective in transporting CMP-sialic acid into the Golgi, results in sialic-acid deficient glycoproteins. The binding of these derivatives to the LH/CG receptor did not differ significantly from purified CG (CR119), but the ability of the mutant hormones to stimulate cAMP biosynthesis in vitro is reduced compared to wild-type CG or CR119. Since the amino acid sequence of CG from the mutant and wild-type cells is identical, these data indicate that oligosaccharide structures, while not influencing receptor binding, directly affect signal transduction.
Mol Endocrinol 1989 Dec
PMID:Expression of recombinant human choriogonadotropin in Chinese hamster ovary glycosylation mutants. 256 Aug 7

The human ts11 gene was isolated on the basis of its ability to complement the mutation of the BHK cell cycle ts11 mutant, which is blocked in G1 at the nonpermissive temperature. This gene has now been identified as the structural gene for asparagine synthetase (AS) on the bases of sequence homology and the ability of exogenous asparagine to bypass the ts11 block. The ts11 (AS) mRNA has a size of about 2 kilobases and is induced in mid-G1 phase in human, mouse, and hamster cell lines. We have studied the organization and regulation of expression of the ts11 gene. The human ts11 gene consists of 13 exons (the first two noncoding) interspersed in a region of about 21 kilobases of DNA. Transient expression assays using the bacterial chloramphenicol acetyltransferase reporter gene identified two separate promoters: one (ts11 P1) contained in a 280-base-pair region upstream of the first exon and the other (ts11 P2) contained in the first intron. ts11 P1 produced about sixfold more chloramphenicol acetyltransferase activity than did ts11 P2 and had features of the promoters of housekeeping genes: high G + C content, multiple transcription start sites, absence of a TATA box, and presence of putative Sp1 binding sites. ts11 P2 contained a TATA sequence and other elements characteristic of a promoter, but so far we have no evidence of its physiological utilization. The ts11 gene was overexpressed in ts11 cells exposed to the nonpermissive temperature. Addition of asparagine to the culture medium led to a drastic decrease in mRNA levels and prevented G1 induction in serum-stimulated cells, which indicated that expression of the AS gene is regulated by a mechanism of end product inhibition.
Mol Cell Biol 1989 Jun
PMID:Organization and expression of the cell cycle gene, ts11, that encodes asparagine synthetase. 256 68

In Chinese hamster ovary cells, the gene for asparagine synthetase, which spans 20 kilobase pairs, was found to contain a cluster of potential sites for CpG methylation in a 1-kilobase-pair region surrounding the first exon. Fourteen of the sites that could be assayed for methylation by MspI-HpaII digestions were found in this region, with an additional nine MspI sites spread throughout the remainder of the gene. The methylation status of the gene was analyzed in a series of cell lines that differed in the amount of asparagine synthetase activity. The level of expression showed a direct correlation with the extent of methylation of a subset of the MspI sites found in the 5' region of the gene. The rest of the gene was completely methylated in most cell lines. Wild-type cells, which expressed a basal level of asparagine synthetase activity, were partially demethylated in the 5' region. In contrast, asparagine-requiring N3 cells, which lacked detectable mRNA for asparagine synthetase, were methylated throughout the entire gene. Spontaneous revertants of strain N3, selected for growth in asparagine-free medium, exhibited extensive hypomethylation of the asparagine synthetase gene. The methylation pattern of the gene in cell lines that overproduced the enzyme was also examined. Albizziin-resistant cell lines, which had amplified copies of the gene, were extensively demethylated in the 5' region. Overexpression of asparagine synthetase in beta-aspartyl hydroxamate-resistant lines without amplified copies of the gene was also correlated with DNA hypomethylation.
Mol Cell Biol 1989 Jul
PMID:DNA methylation patterns associated with asparagine synthetase expression in asparagine-overproducing and -auxotrophic cells. 257 Oct 77

Extrachromosomal mutants resistant to antimycin, from the yeast Kluyveromyces lactis, have been isolated, genetically characterized, and assigned to two specific genetic loci (Brunner et al., 1987). In the present work the cytochrome b nucleotide sequence from six of these mutants was determined. Five mutants had single point mutations, corresponding to transversions. In one mutant, a six-base-pair deletion, beginning at nucleotide 689, was observed. The amino acid sequence derived from the coding strand showed that, in three independent antimycin-resistant mutants, a change of asparagine 31 into lysine took place (two of these mutants are also resistant to diuron). Two other mutants showed a change from lysine 228 into isoleucine (or methionine). Leucine 230, isoleucine 231, and threonine 232, were lost in the deletion mutant and were replaced by serine.
Mol Microbiol 1989 Nov
PMID:Mitochondrial cytochrome b genes with a six-nucleotide deletion or single-nucleotide substitutions confer resistance to antimycin A in the yeast Kluyveromyces lactis. 261 56

1H-NMR spectroscopy was used to monitor the major metabolic end products released by Giardia lamblia when maintained anaerobically in culture in Diamond's TYI-S-33 medium. Spectra were acquired for the cell-free medium and the resonances of metabolites utilised and produced during cell growth identified by the addition of pure compounds and by difference spectroscopy. The major metabolites produced by the parasite were alanine, ethanol and acetate, with increases in concentrations in the media after 4 days' growth (end of log phase) of 18, 15 and 4 mM, respectively. The production of both alanine and ethanol approximated to cell growth, with ethanol formation lagging behind alanine during log growth but predominating after the parasites entered stationary phase. Acetate was formed at a more constant rate during growth. Glucose utilisation was sufficient to account for only 50% of the total carbon appearing in alanine, ethanol and acetate. The aminotransferase inhibitors L-cycloserine and carboxymethoxylamine inhibited growth and selectively inhibited the production of alanine. Analysis of the amino acid composition of the medium by HPLC showed that the only amino acid produced, apart from alanine, was proline, which increased in concentration in the medium by 4 mM after 4 days. There was also a 7 mM increase in ammonia over the same period. The only amino acids that were utilised were arginine and the components of an unresolved peak comprising serine, asparagine and glutamine.(ABSTRACT TRUNCATED AT 250 WORDS)
Mol Biochem Parasitol 1989 Nov
PMID:Alanine is a major end product of metabolism by Giardia lamblia: a proton nuclear magnetic resonance study. 261 87

The amino acid substitutions responsible for the temperature-sensitive (ts) and mutator phenotypes of the classical bacteriophage T4 DNA polymerase mutant tsL56 were determined. tsL56 DNA polymerase has two mutations in the 5' end of the DNA polymerase gene (g43) that produce two amino acid substitutions: codon 89, alanine to threonine, and codon 363, aspartate to asparagine. Both mutations are required for the strong ts and mutator phenotypes. The increased error rate of the tsL56 DNA polymerase is due to a reduction in 3'----5' exonuclease activity relative to polymerase activity (N. Muzyczka, R. L. Poland, and M. J. Bessman, J. Biol. Chem. 247:7116-7122, 1972). Thus, the locations of the tsL56 mutations suggest that the 3'----5' exonuclease domain resides in the N-terminal region. Several other ts DNA polymerase mutant strains isolated with tsL56 also have mutator or antimutator phenotypes. The nucleotide changes in these important mutant strains were also determined. This mutant collection, combined with collections of g43 amber mutants and mutants selected on the basis of a strong mutator phenotype (L. J. Reha-Krantz, J. Mol. Biol. 202:711-724, 1988), contains nearly 70 different DNA polymerase mutations. The numerous T4 DNA polymerase mutations are valuable for DNA polymerase structure-function and fidelity studies.
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PMID:Locations of amino acid substitutions in bacteriophage T4 tsL56 DNA polymerase predict an N-terminal exonuclease domain. 267 3

The dihydrofolate reductase-thymidylate synthase (DHFR-TS) bifunctional complex from pyrimethamine-sensitive (3D7) and drug-resistant (HB3 and 7G8) clones from Plasmodium falciparum was purified to homogeneity. A modified sequence of purification steps with a 10-formylfolate affinity column at its center, allows the isolation of the enzyme complex with a 10-fold higher yield than previously reported, irrespective of the pyrimethamine resistance of the parasites. Titration of the homogenous DHFR-TS complex with the inhibitor revealed a 500-fold lower affinity of the enzyme from clone 7G8 for the drug than found with the enzyme from clone 3D7. Direct comparison of the homogenous enzyme preparations on SDS-PAGE revealed no difference in the molecular mass of the DHFR-TS from the 3 clones, nor could a reproducible difference be detected in the peptide patterns obtained after digesting the DHFR-TS complex with various proteases. The amplification of segments from the DHFR-TS coding region of the 3 clones and 7 isolates of P. falciparum by polymerase chain reaction resulted in fragments of the predicted length without any size heterogeneity. The DNA sequence of the DHFR coding region from FCR-3, 3D7, HB3 and 7G8 differs in a total of 4 nucleotides. One point mutation changes amino acid residue 108 from threonine (FCR-3) or serine (3D7) to asparagine (HB3 and 7G8). The presence of asparagine-108 appears to be the molecular basis of pyrimethamine resistance of HB3 and 7G8. The degree of resistance is associated with a point mutation affecting the codon for amino acid 51 in 7G8.
Mol Biochem Parasitol 1989 Oct
PMID:Point mutations in the dihydrofolate reductase-thymidylate synthase gene as the molecular basis for pyrimethamine resistance in Plasmodium falciparum. 267 19


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