Characterization of maltose biosynthesis from α-d-glucose-1-phosphate in Spinacia oleracea. L.

The de novo synthesis of maltose in spinach (Spinacia oleracea L.) was shown to be catalyzed by a maltose synthase, which converts two molecules of -d-glucose-1-phosphate (-G1P) (K_m 1.5 mmol l^-1) to maltose and 2 orthophosphate (Pi). This enzyme was purified 203-fold by fractionated ammonium sulfate precipitation and by column chromatography on Sepharose 6B. The addition of -G1P (15 mmol l^-1) to the isolation buffer is required to stabilize the enzyme activity during the extraction and purification procedure. Molecular weight determination by gel filtration yielded a value of 95,000. -Gluconolactone, ATP and Pi are competitive inhibitors toward the substrate -G1P. The maltose synthase catalyzes an exchange of the phosphate group of -G1P with [³²P] orthophosphate; this transfer reaction suggests that the synthesis of maltose occurs via a glucose-enzyme in a double displacement reaction. The physiological role of this enzyme as a starch initiator system is discussed.Abbreviations Fru fructose - Glc glucose - -G1P -d-glucose-1-phosphate - -G1P -d-glucose-1-phosphate - G6P d-glucose-6-phosphate This enzyme is tentatively called maltose synthase in this publication     

Fucosyltransferase expression in human platelets and leucocytes

The activities of -2-l-fucosyltransferase and -3-l-fucosyltransferase were measured in human platelets and leucocytes from normal donors, -2-l-Fucosyltransferase was found in platelets but not in leucocytes. In contrast -3-l-fucosyltransferase was not detected in platelets but was present in leucocytes where it was demonstrated in the neutrophil, monocyte and lymphocyte fractions.     

α-Isopropylmalate synthase from Alcaligenes eutrophus H 16

The purified isopropylmalate synthase of Alcaligenes eutrophus H 16 reacted with the following -keto acids and acyl-coenzyme A derivatives (in the sequence of decreasing affinities): -ketoisovalerate, -keto-n-valerate, -ketobutyrate and pyruvate; acetyl-CoA, propionyl-CoA, butyryl-CoA. malonyl-CoA, valeryl-CoA, and crotonyl-CoA. -Ketoisocaproate, however, is a strong inhibitor of the enzyme. All reactions catalyzed by isopropylmalate synthase were inhibited to the same extent by the endproduct l-leucine. the substrate saturation curves of -ketoisovalerate or other -keto acids and of acetyl-coenzyme A or other acyl-CoA derivatives had intermediary plateau regions; the Hill coefficient alternated between n _H -values higher and lower than 1.0, indicating changes from positive to negative and from negative to positive cooperativity for the substrates. The products, isopropylmalate and free coenzyme A, showed competitive inhibition patterns against both substrates (-ketoisovalerate and acetyl-CoA). Free coenzyme A (1 M) inactivated the enzyme irreversibly. The 3-phosphate of coenzyme A and the free carboxyl group of -ketoisovalerate were involved in optimal binding of these substrates, but 3-dephospho-acetyl-coenzyme A and the methylester of -ketoisovalerate were also converted by this enzyme. A CH₃–CH₂-grouping of the -keto acids seemed to be necessary for binding this substrate.Abbreviations Used CoA Coenzyme A - Tris Tris(hydroxymethyl)aminomethane hydrochloride - DTNB 5,5-dithiobis-(2-nitrobenzoic acid) - IPM -Isopropylmalate - KIV -Ketoisovalerate Prepared from doctoral thesis of the University of Göttingen 1973     

Sialyltransferase activity in FR3T3 cells transformed withras oncogene: decreased CMP-Neu5Ac:Galβ1-3GalNAc α-2,3-sialyltransferase

We have investigated the activity of CMP-Neu5Ac:Gal\1-3GalNAc -2,3-sialyltransferase (EC 2.4.99.4) in FR3T3 cells transformed by the Ha-ras oncogene in which we have previously demonstrated the higher expression of the -galactosidase -2,6-sialyltransferase (EC 2.4.99.1) [21]. We demonstrate that the presence of the activatedras gene decreases the activity of this specific -2,3-sialyltransferase fourfold. According to the kinetic parameters and to mixing experiments, we can assume that this decreased enzymatic activity reflects a decrease in the number of activeO-glycan -2,3-sialyltransferase polypeptides inras-transformed cells. However, no change in the binding of Peanut agglutinin was observed on the cell surface ofras-transformed FR3T3 suggesting that no change in the sialylation ofO-glycan core 1 appeared in these cells, although the activity of the -2,3-sialyltransferase was decreased.Abbreviations -2,3-ST(O) CMP-Neu5Ac:Gal1-3GalNAc-R -2,3-sialyltransferase - -2,3-ST(N/O) CMP-Neu5Ac:Gal1-3/4GlcNAc-R -2,3-sialyltransferase - -2,6-ST(N) CMP-Neu5Ac:Gal1-4GlcNAc-R -2,6-sialyltransferase - -2,6-ST(O)I CMP-Neu5Ac:R-GalNAc(1-O)Ser -2,6-sialyltransferase - -2,6-ST(O)II CMP-Neu5Ac:Neu5Ac2-3Gal1-3GalNAc-R -2,6-sialyltransferase - ASFet asialofetuin - FR3T3 Fisher rat fibroblast - FRras Ha-ras-transfected FR3T3 fibroblasts - NaCl/P_i sodium phosphate 10mm, NaCl 0.15m, pH 7.4, buffer - pNp p-nitrophenol     

Induction of extracellular arabinases on monomeric substrates in Aspergillus niger

The induction of extracellular arabinases by pentose sugars and polyols generated by the metabolic pathway of l-arabinose and d-xylose catabolism in Aspergillus niger was investigated. Induction occurred with l-arabinose and l-arabitol but not with d-xylose or xylitol. l-arabitol in particular was found to be a good inducer for -l-arabinofuranosidase and endo-arabinase activities. Western blotting analysis showed both -l-arabinofuranosidase A and B to be present. No induction was observed using d-arabitol. Unlike the wild type A. niger N402 strain, the A. niger xylulose kinase negative mutant N572 also showed induction of -l-arabinofuranosidases A and B and endo-arabinase activity on d-xylose and xylitol. This is due to metabolic conversion of these compounds leading to the accumulation of both xylitol and l-arabitol in this mutant, the latter of which then acts as inducer. The induction of the two -l-arabinofuranosidases and endo-arabinase is under the control of two regulatory systems namely pathway specific induction and carbon catabolite repression. Under derepressing conditions in the wild type only -l-arabinofuranosidase B could be detected by Western blotting analysis. This indicates that -l-arabinofuranosidase B is of importance in the initiation of specific induction of the various arabinose activities in A. niger grown on arabinose containing structural polysaccharides.Abbreviations PNA p-nitrophenyl--l-arabinofuranoside     

Fungal thermostable α-dialkylamino acid aminotransferase: occurrence,purification and characterization

-Dialkylamino acid aminotransferase was found in various fungi; this is the first evidence for the occurrence of the enzyme in eukaryotes. The enzyme was purified from Fusarium solani and shown to be composed of four subunits with an identical molecular weight of 42,000. -Aminoisobutyrate and cycloleucine served as amino donors, and pyruvate, -ketobutyrate, -ketovalerate, -ketoisovalerate, and glyoxylate as amino acceptors. The K _m values for -aminoisobutyrate and -ketobutyrate were 28 and 0.3 mM, respectively. -Ketobutyrate inhibited the enzyme noncompetitively with -aminoisobutyrate, and showed K _i value of 8 mM. The significant inhibitory effect of l-cycloserine was observed, but d-cycloserine did not inhibit the enzyme. The pH and temperature optima for transamination of -aminoisobutyrate with pyruvate were about 8.0 and 60°C, respectively. Despite the production of this enzyme by the mesophile, the enzyme was thermostable; it retained its full activity upon heating at 60°C for 30 min.Abbreviations ACPC 1-aminocyclopropane-1-carboxylic acid - AIB -aminoisobutyrate - PLP pyridoxal 5-phosphate     

Proteolytic digestion of α-lactalbumin: Physiological implications

The kinetics of the partial digestion of bovine -lactalbumin (-LA) by trypsin, -chymotrypsin, and pepsin was monitored by lactose synthase activity, HPLC, and difference spectrophotometry. The relative stabilities of the various metal-bound states of -LA to trypsin and chymotrypsin at 37 and 5°C decrease in the following order: Ca(II)--LA>Zn(II), Ca(II)--LA>apo--LA. The HPLC digestion patterns of Ca(II)--LA and Zn(II), Ca(II)--LA at 5 and 37°C were similar, while the corresponding digestion patterns for apo--LA were quite different, reflecting the existence of the thermally induced denaturation states of apo--LA within this temperature region. Occupation of the first Zn(II)-binding site in Ca(II)-loaded -LA slightly alters the HPLC digestion patterns at both temperatures and accelerates the digestion at 37°C due to Zn(II)-induced shift of the thermal transition of -LA, exposing some portion of thermally denatured protein. The results suggest that the binding of Zn(II) to the first Zn(II)- (or Cu(II))-specific site does not cause any drastic changes in the overall structure of -LA. The acidic form of -LA (atpH 2.2 and 37°C) was digested by pepsin at rates similar to that for the apo- or Cu(II), Ca(II)-loaded forms by trypsin or -chymotrypsin at neutralpH. Complexation of -LA with bis-ANS affords protection against pepsin cleavage. It is suggested that the protective effects of similar small lipophilic compounds to -LA may have physiological significance (e.g., for nutritional transport).On leave from the Institute of Biological Physics, USSR Academy of Sciences, Pushchino, Moscow Region, 142292, USSR.     

Purification of the Lewis blood-group gene associated α-3/4-fucosyltransferase from human milk: an enzyme transferring fucose primarily to Type 1 and lactose-based oligosaccharide chains

A soluble Lewis blood-group gene associated -3/4-L-fucosyltransferase has been purified from human milk by a series of steps involving hydrophobic chromatography on Phenyl Sepharose 4B, ion exchange chromatography on CM-Sephadex C-50, affinity chromatography on GDP-hexanolamine Sepharose 4B and gel filtration on Sephacryl S-200. The first step separated -3-L-fucosyltransferase activity directed towardsN-acetylglucosamine in Type 2 (Gal1-4GlcNAc-R) acceptors from an -3/4-fucosyltransferase fraction acting on both Type 1 (Gal1-3GlcNAc-R) and Type 2 acceptors. Further purification of this latter fraction on CM-Sephadex and GDP-hexanolamine Sepharose gave a single peak of fucosyltransferase activity that catalysed the addition of fucose toN-acetylglucosamine in both Type 1 and Type 2 acceptors and to theO-3 position of glucose in lactose-based oligosaccharides. The enzyme preparation at this stage resembled previously described -3/4-fucosyltransferase preparations purified from human milk. However, gel filtration of this preparation on Sephacryl S-200 or Sephadex G-150 separated further amounts of -3-fucosyltransferase activity acting solely on Type 2 acceptors and left a residual -3/4-fucosyltransferase that retained strong -4 activity with the Type 1 acceptor, lacto-N-biose 1, and -3 activity with 2-fucosyllactose, but had relatively little -3 activity withN-acetyllactosamine and virtually no capacity to transfer fucose to glycoproteins withN-linked oligosaccharide chains having unsubstituted terminal Type 2 structures.     

The effect of modification and fragmentation of α-lactalbumin on lactose and lactosamine synthase reactions

In the presence of the modifier protein -lactalbumin, bovine milk galactosyltransferase transfers galactose to glucose forming lactose instead of transferring toN-acetylglucosamine formingN-acetyllactosamine. At low concentrations of -lact-albumin, the lactosamine synthase activity is stimulated by -lactalbumin and decreases when the lactose synthase activity develops along a sigmoidal curve. The observation suggests that different interactions between -lactalbumin and enzyme were responsible for the modulating effect of the -lactalbumin in the lactose and lactosamine synthase reactions.To study the nature of the protein-protein interactions, -lactalbumin was both modified and cleaved chemically. Reduction and alkylation with iodoacetic acid, iodoacetamide or 4-vinylpyridine abolished the ability of the -lactalbumin to induce lactose synthase activity but stimulated lactosamine synthase activity 7-to 12-fold.A peptide fragment corresponding to residues 26–60 of -lactalbumin isolated from a 2-(2-nitrophenylsulphenyl)-3-methyl-3-bromo-indolene (BNPS-skatole) fragmentation of the molecule was active in the lactosamine but not lactose synthase reaction. We concluded that, whereas lactose synthase required -lactalbumin, in the native conformation, lactosamine synthase activity was stimulated by a linear sequence of amino acids in peptide 26–60.Abbreviations MES 4-N-morpholinoethanesulfonic acid - TRIS 2-amino-2-(hydroxymethyl)-1,3-propanediol - UDP-Gal uridinediphosphogalactose - BNPS-skatole 2-(2-nitrophenylsulphenyl)-3-methyl-3-bromo-indolene - EDTA ethylene diamine tetra acetic acid     

Synthesis of methyl α-isomalto-oligosaccharides specifically deoxygenated at position 2 of the terminal glycopyranosyl unit

Methyl -isomaltoside and methyl -isomaltotrioside specifically deoxygenated at position C-2 of the terminal glucopyranosyl unit were synthesized by trimethylsilyltriflate-mediated condensation of 3,4,6-tri-O-benzoyl-1-O-tert-butyl(dimethyl)silyl-2-deoxy--d-arabino-hexopyranose with suitably blocked derivatives of methyl -d-glucopyranoside and methyl -isomaltoside, respectively.To whom correspondence should be addressed.