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1.
An intracellular α-glucosidase (α-glu1) of Aspergillus niger was purified and its properties were compared to those of a secreted α-glucosidase (α-gluE). The estimated molecular weight of α-gluI was 95,000 by gel filtration (α-gluE = 63,000); it is a glycoprotein possessing 29 mol of mannose, 6 mol of glucosamine, and 14 mol of glucose (α-gluE has 5–6 and 2 mol of mannose and glucosamine, respectively). The Km′s of α-glu1 for p-nitrophenyl-α-d-glucopyranoside and maltose were 1.49 and 1.04, respectively, slightly lower than those of α-gluE. In addition, at 65 °C α-gluI enzymatic activity decayed fivefold faster than that of α-gluE, and anti-α-gluE antibody did not recognize α-gluI. While some of these distinctions between the enzymes could be ascribed to conformational differences, the great dissimilarity in molecular weight (approximately 32,000) and lack of reactivity with anti-α-gluE argue against α-gluI being related to α-gluE. The antibody covalently coupled to horseradish peroxidase (Ab-Px) was used as a probe to determine the cellular location of α-gluE by electron microscopic immunocytology. It was found on both sides of the plasma membrane (pm) and in the outer of the two layers of the cell wall. This may mean that α-gluE is synthesized at the inner surface of the pm, is extruded through the pm, becomes associated with the outer layer of the cell wall (perhaps as enzyme—substrate complex), and is eventually released into the growth medium.  相似文献   

2.
The location of lipoprotein lipase activity in rat adipose tissue was studied using intact epididymal fat pads, isolated adipocytes, and lipoprotein lipase activity secreted from adipocytes as enzyme sources. The enzyme activities of these preparations were characterized by gel filtration. The method used for isolation of adipocytes had been modified to minimize activation of lipoprotein lipase during the procedures. Extracts of intact adipose tissue separated into two major lipoprotein lipase activity peaks, designated "a" and "b", the "a" fraction representing about 30 (fasted rats) to 50% (fed rats) of the total enzyme activity. An intermediate fraction (designated "i") was frequently observed. Extracts of isolated adipocytes from fed rats contained about 35% and those from fasted rats about 65% of the lipoprotein lipase activity present in intact tissue. The "b" fraction constituted 80--97% of the adipocyte lipoprotein lipase activity. In contrast, the enzyme activity secreted from the adipocytes contained only the "a" and "i" fractions. These data implicate the existance of one intracellular form of lipoprotein lipase (corresponding to the "b" fraction), different from extracellular forms of the enzyme (corresponding to fractions "a" and "i"). A transformation of the intracellular to the extracellular forms appears to occur in conjunction with secretion of enzyme from the fat cell.  相似文献   

3.
4.
New substrate for galactose oxidase   总被引:1,自引:0,他引:1  
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5.
GO (galactose oxidase; E.C. 1.1.3.9) is a monomeric 68 kDa enzyme that contains a single copper ion and an amino acid-derived cofactor. The enzyme is produced by the filamentous fungus Fusarium graminearum as an extracellular enzyme. The enzyme has been extensively studied by structural, spectroscopic, kinetic and mutational approaches that have provided insight into the catalytic mechanism of this radical enzyme. One of the most intriguing features of the enzyme is the post-translational generation of an organic cofactor from active-site amino acid residues. Biogenesis of this cofactor involves the autocatalytic formation of a thioether bond between Cys-228 and Tyr-272, the latter being one of the copper ligands. Formation of this active-site feature is closely linked to the loss of an N-terminal 17 amino acid prosequence. When copper and oxygen are added to this pro-form of GO (pro GO), purified in copper-free conditions from the heterologous host Aspergillus nidulans, mature GO is formed by an autocatalytic process. Structural comparison of pro GO with mature GO reveals overall structural similarity, but with some regions showing significant local differences in main-chain position. Some side chains of the active-site residues differ significantly from their positions in the mature enzyme. These structural effects of the prosequence suggest that it may act as an intramolecular chaperone to provide an open active-site structure conducive to copper binding and chemistry associated with cofactor formation. The prosequence is not mandatory for processing, as a recombinant form of GO lacking this region and purified under copper-free conditions can also be processed in an autocatalytic copper- and oxygen-dependent manner.  相似文献   

6.
The kinetics and action mechanism of the galactose oxidase from Fusarium graminearum were studied. pH-optimum of the enzyme activity and stability was 7.0, the activity and stability of the galactose oxidase being decreased at any other values of pH. The enzyme is destabilized at acidic pH that is connected with protonization of its ionogenic group with pK 4.7. The temperature optimum of the galactose oxidase is 35 degrees C. When studying the enzyme thermoinactivation, it was found that at temperatures below 30 degrees C the energy of activation of denaturation was about 40 kcal/mole and at temperatures ranging from 30 to 70 degrees C - 13 kcal/mole. On the basis of the data obtained it was concluded that a low-temperature form of the galactose oxidase, possessing a higher energy of activation of denaturation, is more active than a high-temperature form. The value of Km for the enzyme in respect to galactose was 0.19 M, and the value of Vmax = 360 mumole/min per g of the preparation.  相似文献   

7.
8.
Galactose oxidase is a free radical metalloenzyme containing a novel metalloradical complex, comprised of a protein radical coordinated to a copper ion in the active site. The unusually stable protein radical is formed from the redox-active side chain of a cross-linked tyrosine residue (Tyr-Cys). Biochemical studies on galactose oxidase have revealed a new class of oxidation mechanisms based on this free radical coupled-copper catalytic motif, defining an emerging family of enzymes, the radical-copper oxidases. Isotope kinetics and substrate reaction profiling have provided insight into the elementary steps of substrate oxidation in these enzymes, complementing structural studies on their active site. Galactose oxidase is remarkable in the extent to which free radicals are involved in all aspects of the enzyme function: serving as a key feature of the active site structure, defining the characteristic reactivity of the complex, and directing the biogenesis of the Tyr-Cys cofactor during protein maturation.  相似文献   

9.
The fungal enzyme galactose oxidase is a radical copper oxidase that catalyzes the oxidation of a broad range of primary alcohols to aldehydes. Previous mechanistic studies have revealed a large substrate deuterium kinetic isotope effect on galactose oxidase turnover whose magnitude varies systematically over a series of substituted benzyl alcohols, reflecting a change in the character of the transition state for substrate oxidation. In this work, these detailed mechanistic studies have been extended using a series of stereospecifically monodeuterated substrates, including 1-O-methyl-alpha-D-galactose as well as unsubstituted benzyl alcohol and 3- and 4-methoxy and 4-nitrobenzyl derivatives. Synthesis of all of these substrates was based on oxidation of the alpha,alpha'-dideuterated alcohol to the corresponding (2)H-labeled aldehyde, followed by asymmetric hydroboration using alpha-pinene/9-BBN reagents to form the stereoisomeric alcohols. Products from enzymatic oxidation of each of these substrates were characterized by mass spectrometry to quantitatively evaluate the substrate dependence of the stereoselectivity of the catalytic reaction. For all of these substrates, the selectivity for pro-S hydrogen abstraction was at least 95%. This selectivity appears to be a direct consequence of constraints imposed by the enzyme on the orientation of substrates bearing a branched beta-carbon. Steady state analysis of kinetic isotope effects on V/K has resolved individual contributions from primary and alpha-secondary kinetic isotope effects in the reaction, providing a test for the involvement of an electron transfer redox equilibrium in the oxidation process. Multiple isotope effect measurements utilizing simultaneous labeling of the substrate and solvent have contributed to refinement of the relation between proton transfer and hydrogen atom transfer steps in substrate oxidation.  相似文献   

10.
Intra- and extracellular signaling by endothelial neuregulin-1   总被引:1,自引:0,他引:1  
Suppression of tumor growth by inhibition of ErbB receptor signaling is well documented. However, relatively little is known about the ErbB signaling system in the regulation of angiogenesis, a process necessary for tumor growth. We have previously shown that heparin-binding EGF-like growth factor (HB-EGF) is expressed by vascular endothelial cells (EC) and promotes endothelial recruitment of vascular smooth muscle cells (SMC). To assess whether other members of the EGF-family regulate angiogenesis, the expression of 10 EGF-like growth factors in primary ECs and SMCs was analyzed. In addition to HB-EGF, neuregulin-1 (NRG-1) was expressed in ECs in vitro and in vivo. Endothelial NRG-1 was constitutively processed to soluble extracellular and intracellular signaling fragments, and its expression was induced by hypoxia. NRG-1 was angiogenic in vivo in mouse corneal pocket and chicken chorioallantoic membrane (CAM) assays. However, consistent with the lack of NRG-1 receptors in several primary EC lines, NRG-1 did not directly stimulate cellular responses in cultured ECs. In contrast, NRG-1 promoted EC responses in vitro and angiogenesis in CAM in vivo by mechanisms dependent on VEGF-A and VEGFR-2. These results indicate that NRG-1 is expressed by ECs and regulates angiogenesis by mechanisms involving paracrine up-regulation of VEGF-A.  相似文献   

11.
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13.
The development of an indirect anaerobic electrochemical regeneration of galactose oxidase (GOase) allows the prevention of the undesired production of the enzyme inhibitor hydrogen peroxide, which is generated under aerobic regeneration conditions during synthetic applications of GOase. The pH optimum for the electrochemical regeneration of GOase with polyethyleneglycol-modified ferrocene mediators in carbonate buffer is 10.8. Total turnover numbers achieved by either electrochemical or aerobic regeneration of GOase are almost the same. The electrochemical regeneration is half as fast as the aerobic regeneration. It is not necessary to work under anaerobic conditions, because at pH 10.8 the aerobic regeneration of GOase is prevented. The enzyme can be stabilized most effectively by immobilization on an aminopropylated polysiloxane (DELOXAN) via the glutaric dialdehyde procedure with good activity yields up to 37%. Buffers containing amino groups proved to be fatal for long-term GOase stability.  相似文献   

14.
A procedure for the preparation of the fully reduced Cu(I) form of galactose oxidase, GOase(red), involving reduction of GOase(semi) (or GOase(ox)) with non-coordinating [Ru(NH(3))(6)](2+) (51 mV vs. nhe) is described. Air-free conditions and a two-fold excess of [Ru(NH(3))(6)](2+) give a stable product with no further UV-Vis changes over >1.5 h. Rate constants for the reduction of GOase(semi) (k(f)=860 M(-1) s(-1)) give a first-order [H(+)]-dependence (pK(1a)=7.9), but the reverse process involving [Ru(NH(3))(6)](3+) oxidation of GOase(red) (k(b)=18.6 M(-1) s(-1)) is independent of pH (5.5 to 9.5). The reduction potential E(2)(o)' (vs. nhe) for the GOase(semi)/GOase(red) (i.e. Cu(II)/Cu(I)) couple is 149 mV at pH 7.5, which varies from 160 mV (pH 5.5) to 120 mV (pH 10.5), suggesting pK(1a) (GOase(semi)) and pK(2a) (GOase(red)) acid dissociation constants both involving Tyr-495. It is concluded that pK(2a) is for acid dissociation of uncoordinated H(+)Tyr-495. Consistent with this interpretation rate constants/M(-1) s(-1) for the GOase(semi) Tyr495 Phe variant, k(f)=1.59x10(3) and k(b)=16.1, respectively, are independent of pH and give a reduction potential of 169 mV. Comparisons are made of reduction potentials (E(1)(o)'/mV pH 7.5) for the GOase(ox)/GOase(semi) (i.e. Tyr(.)/Tyr) couple, and are for the Cys228Gly variant (630), for enzyme with N(3)(-) for H(2)O at the substrate binding exogenous site (393), and for apo-protein (570). These compare with previously reported values for the variants Trp290His (730) and Tyr495Phe (450), and together serve to quantify different contributions to the unusually small E(1)(o)' of 400 mV for the Tyr(.)/Tyr couple. At pH 7.5 the reduction potential for the two-equivalent GOase(ox)/GOase(red) couple is calculated to be 275 mV. The rate constant for the reaction of GOase(red) with GOase(ox) is 4.4x10(3) M(-1) s(-1) at pH 7.5.  相似文献   

15.
Expression of recombinant galactose oxidase by Pichia pastoris   总被引:5,自引:0,他引:5  
Galactose oxidase catalyzes the oxidation of a variety of primary alcohols, producing hydrogen peroxide as a product. Among hexose sugars, the enzyme exhibits a high degree of specificity for the C6-hydroxyl of galactose and its derivatives, underlying a number of important bioanalytical applications. Galactose oxidase cDNA has been cloned for expression in Pichia pastoris both as the full-length native sequence and as a fusion with the glucoamylase signal peptide. Expression of the full-length native sequence results in a mixture of partly processed and mature galactose oxidase. In contrast, the fusion construct directs efficient secretion of correctly processed galactose oxidase in high-density, methanol-induced fermentation. Culture conditions (including induction temperature and pH) have been optimized to improve the quality and yield (500 mg/L) of recombinant enzyme. Lowering the temperature from 30 to 25 degrees C during the methanol induction phase results in a fourfold increase in yield. A simple two-step purification and one-step activation produce highly active galactose oxidase suitable for a wide range of biomedical and bioanalytical applications.  相似文献   

16.
Oxidation of glycolipids in liposomes by galactose oxidase   总被引:1,自引:0,他引:1  
Small unilamellar phosphatidylcholine vesicles containing globo-series glycolipids were labeled by the galactose oxidase/NaB[3H]4 procedure. The major glycolipid of human red cells, globoside, was the best substrate for galactose oxidase both in vesicles and in tetrahydrofuran-containing buffer. The oxidation rates of membrane-bound ceramide trihexoside and Forssman glycolipid were one-fourth and one-tenth, respectively, of the oxidation rate of globoside. Membrane-bound ceramide dihexoside was not a substrate for galactose oxidase, although it was readily oxidized in tetrahydrofuran-containing buffer. Soluble sialoglycoproteins and membrane-incorporated glycophorin A stimulated the oxidation of globoside-containing vesicles, whereas membrane-bound GD1a ganglioside had no effect on globoside oxidation.  相似文献   

17.
18.
The intracellular galactose oxidase from Dactylium dendroides was purified to homogeneity with a 64% yield. The enzyme is a glycoprotein (7.7% neutral sugars, 1.7% aminosugars) with 72,000 Da of molecular mass. The enzyme showed nonlinear double reciprocal plots with O2 and D-galactose, suggesting cooperative binding for both substrates. The intracellular galactose oxidase catalyzes the oxidation of galactose derivatives and dihydroxyacetone but not of glycerol, glycolaldehyde, beta-hydroxipyruvate, and allyl alcohol which are substrates for the extracellular enzyme. Compared with the extracellular galactose oxidase, the intracellular enzyme showed higher carbohydrate content and sensitivity to diethyldithiocarbamate.  相似文献   

19.
20.
The copper enzyme galactose oxidase (GOase, EC 1.1.3.9) catalyses the oxidation of D-galactose and other primary alcohols in air to the corresponding aldehydes and hydrogen peroxide. The current mechanistic hypothesis for this two-electron redox reaction involves a Cu(I)/Cu(II) couple and the reversible oxidation of a ligating phenolate (tyrosine residue of the Tyr272-Cys228 conjugate) to a phenoxyl radical. Our approaches to functional models for galactose oxidase comprise both the use of low-molecular-weight copper complexes of a Schiff-base and sulfonamide ligands, and the synthesis/screening of combinatorial libraries. With regard to the latter, we have synthesized (by the IRORI-directed synthesis approach) peptide libraries carrying either His or the redox-active amino acids Tyr, mod-Cys (a model for the Tyr272-Cys228 conjugate) or TOAC (a TEMPO-derived alpha-amino acid) at four variable positions. After incubation with copper ions, the catalytically active library members were identified by specially designed screening methods.  相似文献   

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