Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:Q07644 (polypeptide)
 72,197 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The replacement of each one of the eight serine residues present in the amino acid sequence of the Saccharomyces cerevisiae acidic ribosomal phosphoprotein YP2 beta (L45) by different amino acids has been performed by heteroduplex site-directed mutagenesis in the cloned gene. The mutated DNA was used to transform a yeast strain previously deprived of the original protein YP2 beta (L45) by gene disruption. The replacement of serine in position 19 by either alanine, aspartic acid, or threonine prevents in vivo phosphorylation of the protein and its interaction with the ribosome. The serine-19 mutated gene is unable to rescue the negative effect on the growth rate caused by elimination of the original protein in YP2 beta (L45) gene disrupted strains. The mutation of any one of the other seven serine residues has no effect on either the phosphorylation or the ribosome binding capacity of the protein, although replacement of serine-72 seems to increase the sensitivity of the polypeptide to degradation. These results provide strong evidence indicating that ribosomal protein phosphorylation plays an important part in the activity of the particle and that it supports the existence of a control mechanism of protein synthesis, which would regulate the level of phosphorylation of acidic proteins.
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PMID:Phosphorylation controls binding of acidic proteins to the ribosome. 196 21

Shiga toxin of Shigella dysenteriae type I and Shiga-like toxins I and II (SLT-I and SLT-II, respectively) of enterohemorrhagic Escherichia coli are functionally similar protein cytotoxins. These toxin molecules have a bipartite molecular structure which consists of an enzymatically active A subunit that inhibits protein synthesis in eukaryotic cells and an oligomeric B subunit that binds to globotriaosylceramide glycolipid receptors on eukaryotic cells. Regionally directed chemical mutagenesis of the B subunit of SLT-II was used to identify amino acids in the B subunit that are critical for SLT-II holotoxin cytotoxic activity. Three noncytotoxic mutants were isolated, and their mutations were mapped. The substitutions of arginine with cysteine at codon 32, alanine with threonine at codon 42, and glycine with aspartic acid at codon 59 in the 70-amino-acid mature SLT-II B polypeptide resulted in the complete abolition of cytotoxicity. The analogous arginine, alanine, and glycine residues were conserved at codons 33, 43, and 60 in the 69-amino-acid mature B polypeptide of Shiga toxin. Comparable mutations induced in the B-subunit gene of Shiga toxin by oligonucleotide-directed, site-specific mutagenesis resulted in drastically decreased cytotoxicity (10(3)- to 10(6)-fold) as compared with that of wild-type Shiga toxin. The mutant SLT-II and Shiga toxin B subunits were characterized for stability, receptor binding, immunoreactivity, and ability to be assembled into holotoxin.
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PMID:Identification of three amino acid residues in the B subunit of Shiga toxin and Shiga-like toxin type II that are essential for holotoxin activity. 199 14

We have tested the hypothesis that isoaspartic acid residues in proteins can arise via errors that occur during protein synthesis. One such error involves a mischarging step in which the aspartic acid side-chain beta-carboxyl group is linked to the tRNA(Asp) instead of the main chain alpha-carboxyl group. If this altered Asp-tRNA(Asp) is a substrate for the ribosomal elongation reactions, a polypeptide will be made with an isoaspartic acid, or beta-linkage, in which the peptide chain is branched at the side chain of the aspartic acid residue. Using an ammonium sulfate fraction of aspartyl-tRNA(Asp) synthetase from Escherichia coli and [3H]aspartic acid, we have prepared [3H]aspartyl-tRNA(Asp) complexes and directly analyzed the linkage of the [3H]aspartate to the tRNA by identifying the products of ammonolysis. Normal attachment of the alpha-carboxyl group of aspartate to the tRNA produces [3H]isoasparagine, while the mischarging reaction leads to [3H]asparagine formation after ammonolysis. We have separated [3H]isoasparagine from [3H]asparagine and found an upper limit of 1 asparagine per 10,000 isoasparagines. These results show that the bacterial aminoacyl-tRNA synthetase can very accurately distinguish between the alpha- and beta-carboxyl groups of aspartic acid and suggest that only a very small fraction of the isoaspartic acid residues found to occur in cellular proteins may be the result of mischarging steps.
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PMID:The fidelity of protein synthesis: can mischarging by aspartyl-tRNA(Asp) synthetase lead to the formation of isoaspartyl residues in proteins? 214 70

The traffic of ions through the kainic acid (KA) receptor/channels present on chick cerebellar glia is modulated by intracellular events likely to involve phosphorylation reactions. The protein carrying the KA binding sites has been isolated from chick cerebellum and shown to be composed of a 49-kDa polypeptide. Its primary structure, established via cDNA cloning, shows the presence of two putative phosphorylation sites. We report here that this 49-kDa polypeptide is a substrate of the cAMP-dependent protein kinase which catalyzes the incorporation of up to 2 mol of phosphate/mol of KA binding site. KA prevents this phosphorylation reaction in a concentration range similar to that needed to activate the KA receptor/channels but higher by 3 orders of magnitude than that needed to saturate the KA binding sites. Kainatergic ligands produce similar effects to those of KA, but 1 mM N-methyl-D-aspartic acid and 1 mM quisqualic acid have no effect. However, 0.01 mM quisqualic acid prevents the inhibitory action of KA. These results raise the possibility that the phosphorylation of KA receptor/channels in their cellular environment is negatively regulated by KA.
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PMID:Phosphorylation of the 49-kDa putative subunit of the chick cerebellar kainate receptor and its regulation by kainatergic ligands. 217 71

A lambda gt11 cDNA library prepared from bovine submaxillary gland mRNA was screened with polyclonal anti-apo-bovine submaxillary mucin antibodies with the aim of obtaining the deduced amino acid sequence of the mucin core protein. One of the positive clones had a 1.8 kilobase (kb) cDNA insert and coded for an incomplete protein. A 2.0-kb cDNA clone was isolated by rescreening the library with the 1.8-kb cDNA. Nucleotide sequencing of the full-length 2.0-kb cDNA revealed an open reading frame that coded for a 563-amino acid protein. A striking feature of the cloned protein is the skewed distribution of the amino acids, most notably that of the hydroxy amino acids and cysteine. The amino-terminal domain of 339 residues is very rich in threonine, serine, and glycine and poor in cysteine, aspartic acid, tyrosine, phenylalanine, and tryptophan. In contrast, the carboxyl-terminal domain of 224 residues is rich in cysteine, aspartic acid, tyrosine, lysine, and asparagine and relatively poor in threonine, serine, and glycine. A search of the protein data bank for homologies to the deduced amino acid sequence revealed statistically significant matches to several proteins, including the porcine submaxillary apomucin fragment. The cysteine-rich domain by itself was not statistically homologous with any of the registered polypeptide sequences. RNA blot analysis using DNA probes corresponding to the mucin-like and cysteine-rich regions detected a nearly identical pattern of transcripts, demonstrating that the characterized clones are not artifacts of cDNA library construction. The blots also showed the presence of polydisperse transcripts in bovine submaxillary gland but no detectable hybridization signals in liver or brain RNA.
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PMID:Cloning and cDNA sequence of a bovine submaxillary gland mucin-like protein containing two distinct domains. 220 65

The pepsin-like aspartyl proteases consist of a single polypeptide chain with topologically similar amino- and carboxyl-terminal domains, each of which contributes 1 aspartic acid residue to the active site. This structure has been proposed to have evolved by gene duplication and fusion from a dimeric enzyme composed of two identical polypeptide chains, such as the aspartyl protease (PRT) of human immunodeficiency virus type 1 (HIV-1). To determine if a single polypeptide form of the HIV-1 protease would be enzymatically active, two protease coding regions were linked to form a dimeric gene (pFGGP). Expression of this gene in Escherichia coli yielded a protein with the expected molecular mass of 22 kDa. The in vitro kinetic parameters of PRT and FGGP (where FGGP is the single polypeptide form of the HIV-1 protease with 2 glycine residues connecting the two subunits) for three peptide substrates are similar. Construction and analysis of a CheY-GAG-FGGP fusion protein demonstrated that FGGP is capable of precursor processing in vivo. Mutation of one or both of the active site aspartates to either asparagine or glutamate rendered the enzyme inactive, demonstrating that both active site aspartate residues are required for enzymatic activity.
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PMID:Characterization of an active single polypeptide form of the human immunodeficiency virus type 1 protease. 221 28

The gene coding for thermophilic xylose (glucose) isomerase of Clostridium thermosulfurogenes was isolated and its complete nucleotide sequence was determined. The structural gene (xylA) for xylose isomerase encodes a polypeptide of 439 amino acids with an estimated molecular weight of 50,474. The deduced amino acid sequence of thermophilic C. thermosulfurogenes xylose isomerase displayed higher homology with those of thermolabile xylose isomerases from Bacillus subtilis (70%) and Escherichia coli (50%) than with those of thermostable xylose isomerases from Ampullariella (22%), Arthrobacter (23%), and Streptomyces violaceoniger (24%). Several discrete regions were highly conserved throughout the amino acid sequences of all these enzymes. To identify the histidine residue of the active site and to elucidate its function during enzymatic xylose or glucose isomerization, histidine residues at four different positions in the C. thermosulfurogenes enzyme were individually modified by site-directed mutagenesis. Substitution of His101 by phenylalanine completely abolished enzyme activity whereas substitution of other histidine residues by phenylalanine had no effect on enzyme activity. When His101 was changed to glutamine, glutamic acid, asparagine, or aspartic acid, approximately 10-16% of wild-type enzyme activity was retained by the mutant enzymes. The Gln101 mutant enzyme was resistant to diethylpyrocarbonate inhibition which completely inactivated the wild-type enzyme, indicating that His101 is the only essential histidine residue involved directly in enzyme catalysis. The constant Vmax values of the Gln101, Glu101, Asn101, and Asp101 mutant enzymes over the pH range of 5.0-8.5 indicate that protonation of His101 is responsible for the reduced Vmax values of the wild-type enzyme at pH below 6.5. Deuterium isotope effects by D-[2-2H]glucose on the rate of glucose isomerization indicated that hydrogen transfer and not substrate ring opening is the rate-determining step for both the wild-type and Gln101 mutant enzymes. These results suggest that the enzymatic sugar isomerization does not involve a histidine-catalyzed proton transfer mechanism. Rather, essential histidine functions to stabilize the transition state by hydrogen bonding to the C5 hydroxyl group of the substrate and this enables a metal-catalyzed hydride shift from C2 to C1.
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PMID:Catalytic mechanism of xylose (glucose) isomerase from Clostridium thermosulfurogenes. Characterization of the structural gene and function of active site histidine. 222 64

A 25-kDa vaccinia virus (VV) virion protein, designated M25, is modified in vivo by covalent addition of myristic acid. The predicted amino acid sequences of all VV open reading frames which have been reported were searched for the sequence M-G-X-X-X-(S/T/A), which has been proposed to be the consensus recognition signal for cotranslational modification of proteins by N-myristyltransferase. This conserved signal was found at the amino terminus of a single locus, which corresponded to the leftmost rightward-reading open reading frame (L1R) initiating within the VV HindIII L DNA fragment. By using synthetic oligonucleotides in concert with polymerase chain reaction techniques, a chimeric gene consisting of open reading fram L1R fused to a bacteriophage T7 promoter was constructed and cloned into a plasmid vector. Transcripts derived from the wild-type expression plasmid (designated pL1G1) were translated in vitro in a wheat germ extract to yield a polypeptide with an apparent molecular mass of 25 kDa. This polypeptide was labeled with either [35S]methionine or [3H]myristic acid and comigrated with in vivo-labeled protein M25 on sodium dodecyl sulfate-polyacrylamide gels. Polyclonal antiserum generated in rabbits against a trpE:L1R fusion protein immunoprecipitated a 25-kDa protein labeled either in vitro (the L1R gene product, designated protein L1) or in vivo (from purified VV, protein M25), identifying the M25 protein as the gene product of open reading frame L1R. Chromatographic analysis of the protein L1-bound fatty acid moieties liberated after acid methanolysis resulted in recovery of greater than 99% of the fatty acid as myristate-associated label. Cell-free translation of proteins derived from a set of deletions from the carboxy terminus of the open reading frame L1R suggested that the site of myristylation maps near the amino terminus of protein L1. This hypothesis was supported by cell-free translation of mutant L1R transcripts in which the penultimate glycine codon had been altered by site-directed mutagenesis to encode either an aspartic acid (pL1D1) or alanine (pL1A1) residue. In both cases, the mutant transcripts were translated into a 25-kDa protein which could be labeled in vitro with [35S]methionine but not with [3H]myristic acid. These data demonstrate that VV open reading frame L1R encodes a myristylated protein and provide evidence that the site of modification of protein L1 is the amino-terminal glycine residue.
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PMID:Use of a cell-free system to identify the vaccinia virus L1R gene product as the major late myristylated virion protein M25. 224 83

A second lectin (SNA-II) has been isolated from elderberry (Sambucus nigra L.) bark by affinity chromatography on immobilized asialo-glycophorin. This lectin is a blood group nonspecific glycoprotein containing 7.8% carbohydrate and which is rich in asparagine/aspartic acid, glutamine/glutamic acid, glycine, valine, and leucine. Gel filtration on Superose 12 gave a single symmetrical peak corresponding to Mr, 51,000; SDS-acrylamide electrophoresis gave a single polypeptide, Mr, 30,000. Hence SNA-II appears to be a homodimer. The lectin is a Gal/GalNAc-specific lectin which is precipitated by glycoproteins containing GalNAc-terminated oligosaccharide chains (e.g., asialo-ovine submaxillary and hog gastric mucins), and by glycoproteins and polysaccharides having multiple terminal nonreducing D-galactosyl groups as occur in asialoglycophorin, asialo-laminin and Type 14 pneumococcal polysaccharide. The carbohydrate binding specificity of SNA-II was studied by sugar hapten inhibition of the asialo-glycophorin precipitation reaction. The lectin's binding site appears to be most complementary to Gal-NAc linked alpha to the C-2, C-3, or C-6 hydroxyl group of galactose. These disaccharide units are approximately 100 times more potent than melibiose, 60 times more potent than N-acetyllactosamine, and 30 times more potent than lactose. Interestingly, the blood group A-active trisaccharide containing an L-fucosyl group linked alpha 1-2 to galactose was 10-fold poorer as an inhibitor than the parent oligosaccharide (GalNAc alpha 1-3Gal), suggesting steric hindrance to binding by the alpha-L-fucosyl group; this explains the failure of the lectin to exhibit blood group A specificity.
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PMID:Isolation and characterization of a second lectin (SNA-II) present in elderberry (Sambucus nigra L.) bark. 231 Jan 93

Bovine adrenal medullary dopamine beta-hydroxylase was purified by sucrose density sedimentation, gel filtration chromatography, and Concanavalin A-Sepharose 4B affinity chromatography. Three subunits have been identified, of 71, 75, and 78 kd, present at a ratio of 1:2:1. Homogeneous subunits were isolated on denaturing polyacrylamide gels. Endoglycosidase treatment reduced each polypeptide to a 66-kd species, indicating that high and complex mannans account for the major differences in the subunits. The subunits and their 66-kd products cross-react with an anti-native dopamine beta-hydroxylase antiserum, suggesting common antigenic epitopes. Amino acid content analysis shows enrichment in glutamic acid/glutamine, aspartic acid/asparagine, glycine, and leucine, with little cysteine, tyrosine, proline, lysine, and methionine. Two to three nonidentical polypeptides have been identified from cyanogen bromide fragments. Comparison of the bovine peptide sequences to the corresponding cDNA-deduced human sequences show substantial similarity. Many of the species-specific differences in the primary structure represent conservative changes in amino acids or single base pair changes in amino acid codons.
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PMID:Subunit characterization and primary structure of bovine adrenal medullary dopamine beta-hydroxylase. 231 64


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