Identification and characterization of a thermolabile antigen (TLAb, glyceraldehyde-3-phosphate dehydrogenase) in Saccharomyces cerevisiae

Five thermolabile antigens (TLAa, TLAb, TLAc, TLAd, and TLAe) have been purified from Saccharomyces cerevisiae. Recently, we reported that TLAa was identical with yeast enolase (EC 4.2.1.11). In this paper, TLAb was identified as yeast glyceraldehyde-3-phosphate dehydrogenase (GAPDH, EC 1.2.1.12) on the following bases: (1) Mr, N-terminal amino acid sequence, and isomer number of TLAb were the same as those of GAPDH; (2) anti-TLAb serum was reactive to GAPDH in the Ouchterlony test and in sodium dodecyl sulfate-polyacrylamide gel electrophoresis immunoblotting; and (3) TLAb possessed GAPDH enzyme activity which was inhibited by anti-TLAb serum. The effect of various growth conditions on the proportion of three TLAb isoproteins (TLAb-1, TLAb-2, and TLAb-3) was examined. The proportion of two TLAb isoproteins (TLAb-1 and TLAb-2) changed depending on the cell growth phase the carbon sources, and sodium chloride shock. It is concluded that environmental stress has a differential effect on the biosynthesis of TLAb isoproteins.     

Identification of cellular changes associated with increased production of human growth hormone in a recombinant Chinese hamster ovary cell line

A proteomics approach was used to identify the proteins potentially implicated in the cellular response concomitant with elevated production levels of human growth hormone in a recombinant Chinese hamster ovary (CHO) cell line following exposure to 0.5 mM butyrate and 80 microM zinc sulphate in the production media. This involved incorporation of two-dimensional (2-D) gel electrophoresis and protein identification by a combination of N-terminal sequencing, matrix-assisted laser desorption/ionisation-time of flight mass spectrometry, amino acid analysis and cross species database matching. From these identifications a CHO 2-D reference map and annotated database have been established. Metabolic labelling and subsequent autoradiography showed the induction of a number of cellular proteins in response to the media additives butyrate and zinc sulphate. These were identified as GRP75, enolase and thioredoxin. The chaperone proteins GRP78, HSP90, GRP94 and HSP70 were not up-regulated under these conditions.     

Genetic and proteomic evidences support the localization of yeast enolase in the cell surface

Although enolase, other glycolytic enzymes, and a variety of cytoplasmic proteins lacking an N-terminal secretion signal have been widely described as located at the cell surface in yeast and in mammalian cells, their presence in this external location is still controversial. Here, we report that different experimental approaches (genetics, cellular biology and proteomics) show that yeast enolase can reach the cell surface and describe the protein regions involved in its cell surface targeting. Hybrid enolase truncates, fused at their C terminus with the yeast internal invertase or green fluorescent protein (GFP) as reporter proteins, proved that the 169 N-terminal amino acids are sufficient to target the protein to the cell surface. Furthermore, the enolase-GFP fusion co-localized with a plasma membrane marker. Enolase was also identified among membrane proteins obtained by a purification protocol that includes sodium carbonate to prevent cytoplasmic contamination. These proteins were analyzed by SDS-PAGE, trypsin digestion and LC-MS/MS for peptide identification. Elongation factors, mitochondrial membrane proteins and a mannosyltransferase involved in cell wall mannan biosynthesis were also identified in this fraction.     

Identification of lysine residue involved in inactivation of brain glutamate dehydrogenase isoproteins by o-phthalaldehyde

Incubation of two types of glutamate dehydrogenase (GDH) isoproteins from bovine brain with o-phthalaldehyde resulted in a time-dependent loss of enzyme activity. The inactivation was partially prevented by preincubation of the GDH isoproteins with 2-oxoglutarate or NADH. Spectrophotometric studies indicated that the inactivation of GDH isoproteins with o-phthalaldehyde resulted in isoindole derivatives characterized by typical fluorescence emission spectra with a stoichiometry of one isoindole derivative per molecule of enzyme subunit. There were no differences between the two GDH isoproteins in sensitivities to inactivation by o-phthalaldehyde indicating that the microenvironmental structures of the GDH isoproteins are very similar to each other. Tryptic peptides of the isoproteins, modified with and without protection, identified a selective modification of one lysine as in the region containing the sequence L-Q-H-G-S-I-L-G-F-P-X-A-K for both GDH isoproteins. The symbol X indicates a position for which no phenylthiohydantoin-amino acid could be assigned. The missing residue, however, can be designated as an o-phthalaldehyde-labeled lysine since the sequences including the lysine residue in question have a complete identity with those of the other mammalian GDHs. Also, trypsin was unable to cleave the labeled peptide at this site. Both amino acid sequencing and compositional analysis identified Lys-306 as the site of o-phthalaldehyde binding within the brain GDH isoproteins.     

脊髓和周围神经可溶性酸性蛋白质的研究

 利用微型双向电泳、SDS电泳、免疫印迹法、DEAE-Sephadex色谱、高效液相色谱及氨基酸分析等方法,对牛脊髓(中枢神经)和马尾神经(周围神经)的可溶性酸性蛋白质进行了研究。结果表明在牛脊髓和马尾神经中有钙调素(CaM)、S-100蛋白和神经元特异烯醇化酶(NSE)等可溶性酸性蛋白质存在;脊髓中这些酸性蛋白质的含量远较马尾神经为高。     

Proteomic analysis of Candida magnoliae strains by two-dimensional gel electrophoresis and mass spectrometry

Candida magnoliae which has been newly isolated from honey comb is an osmotolerant yeast to produce erythritol as a major product. Erythritol is a noncariogenic, low calorie sweetener and safe for diabetics. Strain development by chemical mutation to obtain the improved erythritol yield and productivity relative to the parental strain made it necessary to elucidate the physiological differences between the wild and mutant strains. Proteomic analyses of C. magnoliae wild and mutant strains with two-dimensional gel electrophoresis and nanoelectrospray mass spectrometry were carried out to identify intracellular proteins and to estimate the effects of newly characterized metabolic enzymes on the yeast cell growth and erythritol production. Most of the molecular mass of intracellular proteins were distributed in the range of pI 4-8 and molecular mass of approximately 130 kDa. Six out of nine protein spots expressed at different levels between the wild and mutant strains were analyzed with nanoelectrospray tandem mass spectrometry and identified by comparing amino acid sequences with the National Center for Biotechnology Information and Saccharomyces Genome Databases. Except for Ygr086cp, these proteins were believed to be the metabolic enzymes involved in the citric acid cycle (citrate synthase, succinyl-CoA ligase and fumarase) and the glycolysis pathway (pyruvate decarboxylase and enolase). Up-regulated enzymes in the citric acid cycle could explain high growth of the C. magnoliae mutant strain owing to the increased NADH and ATP formation. Down-regulated enolase and up-regulated fumarase in the mutant strain seemed to play a role in the improved bioconversion of erythrose-4-phosphate to erythritol compared with the wild strain.     

In Saccharomyces cerevisiae a short amino acid sequence facilitates excretion in the growth medium of periplasmic proteins

In Saccharomyces cerevisiae the cell wall is a barrier to excretion of proteins in the growth medium. Although small proteins are more easily released than bigger ones, other factors besides molecular sieving may play a role in partitioning of periplasmic proteins. By using several complementary approaches including enzyme-activity assays, quantitative immunoblotting on subcellular fractions and growth media, as well as a novel approach involving the use of flow cytometry and specific antibodies, we show that residues 1–8 of mature glucoamylase greatly enhance excretion of both glucoamylase and β-galactosidase in vivo and facilitate extraction of periplasmic proteins in vitro . Immunological data obtained by flow cytometry on whole cells indicate that this amino acid sequence increases the fraction of enzyme reaching the outer cell-wall layers. This amino acid sequence may define a novel type of topogenic sequence, facilitating the crossing of the yeast cell wall in vivo and facilitating extraction of periplasmic proteins by non-disruptive means in vitro .     

Influence of medium composition on the growth and antigen expression of Helicobacter pylori

An evaluation of the ability of various solid and liquid media to support both growth and antigen expression, particularly lipopolysaccharide (LPS) expression, by Helicobacter pylori culture collection strains and clinical isolates was performed. Liquid-based basal media (brain heart infusion, Brucella broth, Mueller–Hinton broth and tryptone soya broth) supported the growth of strains, whereas solid basal media of the same formulation did not support growth. Optimal growth of all strains was obtained on solid and in liquid media containing blood. Supplemented solid media containing supplements other than blood supported growth but only to a small extent. In liquid media excluding blood, serum supplements enhanced growth and horse serum was found to be superior to fetal calf serum. In general, β-cyclodextrin did not increase growth. Mueller–Hinton broth or tryptone soya broth containing horse serum and a nitrogen source such as yeast extract or proteose peptone no. 3 were found to give optimal growth of H. pylori in a blood-free environment. Strains after cultivation in liquid media, irrespective of composition, maintained production of high-molecular weight (mol. wt) LPS with an O side chain independent of medium composition, whereas subculturing on solid media resulted in production of low-mol. wt LPS. Expression of proteins differed in liquid and on solid media, particularly proteins of 57 and 60 kDa, but qualitatively no differences were observed upon supplementation of basal media.     

Crystal structure of Enterococcus hirae enolase at 2.8 A resolution

We report the crystal structure of an enolase from Enterococcus hirae, which is the first report of a structure determination among gram-positive bacteria. We isolated the enolase gene and determined the base sequence. The amino acid sequence deduced from the DNA sequence suggests that this enolase is composed of 431 amino acids. The amino acid sequence is very similar to those of enolases from eukaryotic and prokaryotic organisms, being 65% and 50% identical to enolases from Escherichia coli and yeast, respectively. The enolase prepared from E. hirae lysate yielded crystals containing one dimer per asymmetric unit. X-ray diffraction patterns were obtained at 2.8 A resolution on a SPring-8 synchrotron radiation source. Crystals belong to space group I4 with unit cell dimensions of a = b = 153.5 A, c = 90.7 A. The E. hirae, yeast, E. coli and lobster enolase structures are very similar. The E. hirae enolase takes an "Open" conformation. The regions in the structure that differ most from other enolases are loops L4 (132-140) and L3 (244-265). Considering the positions of these loops relative to the active site, they seem to have no direct involvement in function. Our findings show that the three dimensional structure of an important enzyme in the glycolytic pathway is evolutionarily conserved among eukaryotes and prokaryotes, including gram-positive bacteria.     

Selective labeling of a membrane peptide with 15N-amino acids using cells grown in rich medium

Nuclear magnetic resonance spectra of membrane proteins containing multiple transmembrane helices have proven difficult to resolve due to the redundancy of aliphatic and Ser/Thr residues in transmembrane domains and the low chemical shift dispersity exhibited by residues in alpha-helical structures. Although (13)C- and (15)N-labeling are useful tools in the biophysical analysis of proteins, selective labeling of individual amino acids has been used to help elucidate more complete structures and to probe ligand-protein interactions. In general, selective labeling has been performed in Escherichia coli expression systems using minimal media supplemented with a single labeled amino acid and nineteen other unlabeled amino acids and/or by using auxotrophs for specific amino acids. Growth in minimal media often results in low yields of cells or expression products. We demonstrate a method in which one labeled amino acid is added to a rich medium. These conditions resulted in high expression (> or =100 mg/L) of a test fusion protein and milligram quantities of the selectively labeled membrane peptide after cyanogen bromide cleavage to release the peptide from the fusion protein. High levels of (15)N incorporation and acceptable levels of cross-labeling into other amino acid residues of the peptide were achieved. Growth in rich media is a simple and convenient alternative to growth in supplemented minimal media and is readily applicable to the expression of proteins selectively labeled with specific amino acids.     

Studies on Nα-acylated proteins: The N-terminal sequences of two muscle enolases

A standard procedure for the identification of the N-terminal amino acid in N alpha-acylated proteins has been developed. After exhaustive proteolysis, the amino acids with blocked alpha-amino groups are separated from positively charged, free amino acids by ion exchange chromatography and subjected to digestion with acylase I. Amino acid analysis before and after the acylase treatment identifies the blocked N-terminal amino acid. A survey of acylamino acid substrates showed that acylase will liberate all the common amino acids except Asp, Cys or Pro from their N-acetyl-and N-butyryl derivatives, and will also catalyze the hydrolysis of N-formyl-Met and N-myristyl-Val. Thus, the procedure cannot identify acylated Asp, Cys or Pro, nor, because of the ion exchange step, N alpha-acyl-derivatives of Arg, Lys or His. Whenever the protease treatment releases free acylamino acids, the remaining amino acids should be detected. When applied to several proteins, the procedure confirmed known N-terminal acylamino acids and identified acyl-Ser in enolases from chum and coho salmon muscle and in pyruvate kinase from rabbit muscle, and acyl-Thr in phosphofructokinase from rabbit muscle. The protease-acylase assay has been used to identify blocked peptides from CNBr- or protease-treated proteins. When such peptides were treated with 1 N HCl at 110 degrees for 10 min, sufficient yields of deacylated, mostly intact, peptide were obtained to permit direct automatic sequencing. The N-terminal sequences of rabbit muscle and coho salmon enolase were determined in this way and are compared to each other and to the sequence of yeast enolase.     

Evolution and classification of cystine knot-containing hormones and related extracellular signaling molecules

The cystine knot three-dimensional structure is found in many extracellular molecules and is conserved among divergent species. The identification of proteins with a cystine knot structure is difficult by commonly used pairwise alignments because the sequence homology among these proteins is low. Taking advantage of complete genome sequences in diverse organisms, we used a complementary approach of pattern searches and pairwise alignments to screen the predicted protein sequences of five model species (human, fly, worm, slime mold, and yeast) and retrieved proteins with low sequence homology but containing a typical cystine knot signature. Sequence comparison between proteins known to have a cystine knot three-dimensional structure (transforming growth factor-beta, glycoprotein hormone, and platelet-derived growth factor subfamily members) identified new crucial amino acid residues (two hydrophilic amino acid residues flanking cysteine 5 of the cystine knot). In addition to the well known members of the cystine knot superfamily, novel subfamilies of proteins (mucins, norrie disease protein, von Willebrand factor, bone morphogenetic protein antagonists, and slit-like proteins) were identified as putative cystine knot-containing proteins. Phylogenetic analysis revealed the ancient evolution of these proteins and the relationship between hormones [e.g. transforming growth factor-beta (TGFbeta)] and extracellular matrix proteins (e.g. mucins). They are absent in the unicellular yeast genome but present in nematode, fly, and higher species, indicating that the cystine knot structure evolved in extracellular signaling molecules of multicellular organisms. All data retrieved by this study can be viewed at http://hormone.stanford.edu/.     

Expression of Neuronal Proteins in Cells from Normal Adult Rat Brain Propagated in Serial Culture

Abstract: Cells have been cultured from the brains of 60-day-old rats and propagated through 12 passages. The cells contain the high and middle, but not low, molecular weight neurofilament subunits and neuron-specific enolase, demonstrated by immunoblotting and immunocyto-chemistry with redundant antibodies. The cells did not have the morphology of neurons when cultured in medium containing fetal calf serum and growth factors. In low serum medium containing the same growth factors with the addition of dibutyryl cyclic AMP, the cells became smaller and developed long processes. Three clonal lines derived from these cultures had the same properties. These observations are in agreement with recent observations using mouse and human brain tissue and demonstrate that proteins normally associated with neurons can be found in dividing cells cultured from the brains of young adult rats.     

Nutritional studies of histoplasma capsulatum

Summary A chemically defined medium, composed of inorganic salts, glucose, asparagine, cystine, and a vitamin supplement, has been devised for growth of the yeast phase ofHistoplasma capsulatum. Growth in this medium was abundant and compared favorably with that in media containing complex natural material. Conversion of each of the 20 strains examined was accomplished by one or more passages on agar slants of the medium and incubation of the cultures at 37° C. Yeast phase cultures on this medium have been stored for 6 months or more at approximately 4° C without conversion or loss of viability. Of the 20 strains examined for vitamin requirements of the yeast phase, all were partially deficient for thiamine; nine for inositol; five, either partially or completely deficient for niacin; and one, completely deficient for biotin.No specific amino acid was required for growth of the yeast phase, but an organic source of sulfur and one of nitrogen were essential. Cystine and cysteine were equally effective for growth of the yeast phase when supplied on an equivalent sulfur basis and very little difference in growth occurred in media which contained equal amounts of nitrogen in any one of the following compounds: asparagine, glutamic acid, aspartic acid, and proline,Of the 20 strains, all but one, which requires biotin, were capable of continued growth in the mycelial phase when subcultured on an agar medium containing only inorganic salts and dextrose, but growth was improved significantly by asparagine or casein hydrolysate.This investigation was supported in part by a PHS research grant (AI-03524) from the National Institute of Allergy and Infectious Diseases, Public Health Service.     

The wheat LEA protein Em functions as an osmoprotective molecule in Saccharomyces cerevisiae

The biased amino acid composition and aperiodic (random coil) configuration of Group 1 late embryogenesis-abundant (LEA) proteins imply that these proteins are capable of binding large amounts of water. While Group 1 LEAs have been predicted to contribute to osmotic stress protection in both embryonic and vegetative tissues, biochemical support has been lacking. We have used Saccharomyces cerevisiae as a model system to test the putative osmoprotective function of a wheat Group 1 LEA protein, Em. We demonstrate that expression of Em protein in yeast cells is not deleterious to growth in media of normal osmolarity and attenuates the growth inhibition normally observed in media of high osmolarity. Enhanced growth is observed in the presence of a variety of osmotically active compounds indicating that Em protein is capable of mitigating the detrimental effect of low water potential in a relatively non-specific manner. These results are the first biochemical demonstration of an osmoprotective function for a Group 1 LEA and suggest that the yeast expression system will be useful in dissecting the mechanism of protection through structure-function studies.     

Isolation and characterization of proteoheparan sulfate from plasma membranes of an ascites hepatoma, AH 66

A proteoglycan was isolated from plasma membranes prepared from AH 66 cells by the following procedure. The plasma membranes were isolated from cells according to the method devised by Funakoshi and Yamashina (1976) J. Biochem. 80, 1185-1193), then the membranes were made lipid-free. The lipid-free membranes were solubilized with 5 mM sodium phosphate buffer, pH 7.0, containing 0.5% sodium dodecyl sulfate (SDS), then the solution was fractionated on a Sepharose CL 6B column. The proteoglycan eluted near the void volume fraction was further purified by repeated precipitation with cetylpyridinium chloride (CPC). The proteoglycan isolated was homogeneous on electrophoresis on a cellulose acetate strip and was identified as proteoheparan sulfate. The preparation contained 10.6% protein, its amino acid composition being characterized by high contents of glutamic acid, aspartic acid, proline, glycine, threonine, and serine.     

Proteomic investigation of glucose metabolism in the butyrate-producing gut anaerobe Fusobacterium varium

A proteome survey and MS analysis were conducted to investigate glucose metabolism in Fusobacterium varium, a butyrate-producing constituent of the indigenous human gut microflora. The bacterium was capable of catabolizing glucose as the main energy source via the Embden-Meyerhof-Parnas pathway. 2-DE analyses revealed that the apparent concentrations of the six identified glycolytic enzymes (pyruvate kinase, enolase, glucose-6-phosphate isomerase, phosphoglycerate kinase, triosephosphate isomerase, and glyceraldehyde-3-phosphate dehydrogenase) were specifically increased in response to the presence of glucose in the chemically defined minimal growth medium, and did not diminish when the medium was additionally supplemented with L-glutamate, an amino acid readily fermented by members of the Fusobacterium genus. A substrate pool depletion study revealed that the sugar, and not the amino acid, is the more efficient growth substrate. Both proteomics and substrate pool depletion studies revealed that F. varium can simultaneously utilize both glucose and L-glutamate as energy sources. Enzymes involved in L-glutamate metabolism were also identified, including an NAD-dependent glutamate dehydrogenase and two enzymes of the methylaspartate pathway of L-glutamate catabolism (glutamate mutase and methylaspartate ammonia-lyase). Their apparent intracellular concentrations were elevated when the bacterium was cultured in media supplemented with excess L-glutamate. Our observation that the apparent concentrations of specific proteins were elevated in response to a particular growth substrate supplied as an energy source provides the first evidence for the presence of a nutrient-responsive mechanism governing intracellular protein concentration in F. varium.     

Fluorescent labeling of cysteinyl residues to facilitate electrophoretic isolation of proteins suitable for amino-terminal sequence analysis

A protein labeling procedure which enables detection of subpicomole quantities of proteins on sodium dodecyl sulfate (SDS)-polyacrylamide gels is described. Proteins are rendered fluorescent by reduction of disulfide bonds with dithiothreitol followed by alkylation with 5-N-[(iodoacetamidoethyl)amino]naphthalene-1-sulfonic acid (5-I-AEDANS) or 5-iodoacetamido-fluorescein. Labeling is performed prior to electrophoresis, thus eliminating the need for staining with dyes and destaining after electrophoresis. As little as 375 fmol (25 ng) of prelabeled bovine serum albumin can be readily visualized after electrophoresis. Bands are still visible after electrophoretic transfer to nitrocellulose. Simultaneous labeling of proteins in complex mixtures is possible using this technique. This includes cysteine containing proteins of disrupted Newcastle disease virus. The magnitudes of the molecular weight increases which occur upon labeling reflect the cysteine contents of proteins. The mode of chemical modification for the prelabeling procedure was chosen because of its compatibility with analytical techniques, such as amino acid analysis, peptide mapping, or sequence analysis, which may be applied to the protein after electroelution from SDS-acrylamide gels. It replaces the need for reduction and carboxymethylation prior to these analytical procedures. Protein-sequence analysis of prelabeled bovine serum albumin, including samples electroeluted from SDS-acrylamide gels, has justified the choice of this method to facilitate isolation of proteins for sequence analysis. Equivalent sequence data were obtained with reduced bovine serum albumin S-alkylated with iodoacetic acid or 5-I-AEDANS.     

The prepro-peptide of Mucor rennin directs the secretion of human growth hormone by Saccharomyces cerevisiae

An aspartic proteinase, Mucor pusillus rennin (MPR), of filamentous fungus Mucor pusillus, is efficiently secreted from a transformant of Saccharomyces cerevisiae containing the intact MPR gene. To test the usefulness of the MPR leader peptide in secretion of heterologous proteins from yeast cells, several plasmids encoding the fusion proteins composed of different parts of the NH2-terminal region of prepro-MPR and human growth hormone (hGH) were constructed. The parts of the leader peptide upstream of hGH were the whole prepro-peptide following the NH2-terminal region of mature MPR in JGH1, the intact pre-sequence and a part of the pro-sequence in JGH2, and the putative signal sequences of the NH2-terminal 18 and 22 amino acids in JGH3 and JGH7, respectively. When the hGH genes fused to these leader sequences were expressed in yeast cells under the control of the yeast GAL7 promoter, proteins of various sizes immunoreactive with the anti-hGH antibody were secreted into the medium. Among the plasmids mentioned above, JGH2 directed the greatest secretion of the protein of 23 kilodaltons in size, which contained the expected NH2-terminal amino acid sequence of an additional eight amino acids derived from the pro-peptide of MPR. The addition of the GAL10 terminator downstream of the hGH gene in JGH2 resulted in a greater than three- to fivefold increase in the secretion, whereas the insertion of the GAL4 gene, which is a positive regulator for the GAL system, had no significant effect. The improved yield of the total protein of hGH secreted into the medium reached approximately 10 mg/liter.