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1.
The specific activities of crude and purified Coprinus cinereus laccase preparations could be enhanced by a factor of 10-12 by activation with copper ions. The copper to protein contents of purified non-activated laccase were 2.3 ± 0.1 compared to 3.3 ± 0.1 in purified activated laccase indicating that only a fraction of the laccase can be activated. Purified laccase not activated with copper ions shows in isoelectric focusing four bands in order of decreasing pI in a ratio 1/5/3/1 where only bands I and II had laccase activity. Purified activated laccase showed only three bands (I, II and III) in the ratio 5/4/1 all with some laccase activity. The pH profile of the activity for activated and non-activated laccase showed identical behavior indicating that the active forms were the same. The change in UV-Vis around 330 nm following the depletion and reconstitution of the enzyme combined with activity measurements supports the reversibility of the selective removal and insertion of copper ions at the type 2 site. The circular dichroism spectrum of activated purified laccase has characteristic changes around 350 nm relative to non-activated laccase indicative of changes at the type 2/type 3 sites. The difference between the electron paramagnetic resonance spectra of non-activated and activated C. cinereus laccase indicates that a fraction of the non-activated purified laccase contained a copper(II) signal with a coupling constant between a type 1 and a type 2 copper(II). This electron paramagnetic resonance signal could be explained by an induced asymmetry in the type 3 site due to a missing type 2 copper ion.  相似文献   

2.
1. Laccases I, II and III were (EC 1.14.18.1) prepared from the mycelium of the ascomycete Podospora anserina. The tetrameric laccase I(mol. wt 340 000, 16 copper atoms) and the monomeric laccases II and II (mol. wt 80 000, 4 copper atoms) have been studied by optical absorption-, circular dichroism-(CD)and electron paramagnetic resonance spectroscopy (EPR). 2. The visible and near ultraviolet difference absorption spectrum, which is apparently identical for all three laccases, shows two maxima at 330 and 610 nm and a shoulder at about 725 nm. The molar extinction coefficients of these bands are 4 times larger for the tetrameric laccase I compared to the monomeric laccases II and III which show values similar to other blue copper-containing oxidases. 3. CD spectra between 300 and 730 nm of the tree laccases are similar and contain at least 5-bands in the oxidized enzyme. If the enzyme is reduced, only a band at 307 nm remains. The molar ellipticity values of these bands are 4 times larger for laccase I than the corresponding bands of laccases II and III. It is inferred that the reducible bands are associated with the Type 1 Cu-2+. 4. In all three laccases the EPR-detectable copper accounts for only about 50% of the total copper content. The 9-GHz and 35-GHz spectra, which are identical for all three laccases, consist of two components of equal intensity. One component shows a rather small copper hyperfine coupling and a small deviation from axial symmetry. It is suggested that this copper is associated with the blue chromophore in analogy to Type 1 Cu-2+ in other blue copper proteins. The other component has a broader hyperfine coupling similar to Type 2 Cu-2+ as found in other copper proteins. The assumption that the experimental spectra result from a superposition of the spectra of equal amounts of Type 1 and Type 2 Cu-2+ has been verified by computer simulation. 5. It is suggested that the copper ions which are not detected by EPR are connected to the absorption band at 330 nm and that these ions are also essential for the function of these laccases.  相似文献   

3.
Copper-deprived sycamore (Acer pseudoplatanus) cells do not excrete molecules of active laccase in their culture medium. In the range of 2-100 micrograms of copper initially present per litre of nutrient solution, the total laccase activity measured in the cell suspensions at the end of the exponential phase of growth was closely proportional to the amount of added copper. However, copper-deprived cells excreted the laccase apoprotein (laccase without copper) at the same rate as copper-supplied cells excreted the active, copper-containing, laccase. When the culture medium was initially supplied with limiting amounts of copper, the active laccase was excreted until all copper molecules were metabolized. Thereafter, the laccase apoprotein was excreted. Consequently, at the end of the exponential phase of growth, the cell supernatants contained a mixture of apoprotein and copper-containing laccase. After purification and concentration, this mixture of copper-containing laccase (blue) and laccase apoprotein (slightly yellow) showed a yellow-green colour. Under copper-limiting culture conditions an equivalent decrease of Type 1, Type 2 and Type 3 Cu2+ was observed. Addition of copper to copper-deficient enzyme solutions does not result in a recovery of the enzyme activity. However, when added to copper-deficient sycamore-cell suspensions, copper induced a recovery of the excretion of active enzyme, at a normal rate, within about 10 h. The first molecules of active laccase were excreted after 3-4 h.  相似文献   

4.
On the basis of the spatial structure of ascorbate oxidase [Messerschmidt, A., Rossi, A., Ladenstein, R., Huber, R., Bolognesi, M., Gatti, G., Marchesini, A., Petruzzelli, R. & Finazzi-Agro, A. (1989) J. Mol. Biol. 206, 513-529], an alignment of the amino acid sequence of the related blue oxidases, laccase and ceruloplasmin is proposed. This strongly suggests a three-domain structure for laccase closely related to ascorbate oxidase and a six-domain structure of ceruloplasmin. These domains demonstrate homology with the small blue copper proteins. The relationships suggest that laccase, like ascorbate oxidase, has a mononuclear blue copper in domain 3 and a trinuclear copper between domain 1 and 3 and ceruloplasmin has mononuclear copper ions in domains 2, 4 and 6 and a trinuclear copper between domains 1 and 6.  相似文献   

5.
《Inorganica chimica acta》1988,152(2):139-143
The visible and magnetic circular dichroism (MCD) spectra of Co(II) derivatives of Rhus vernicifera laccase are reported. Anaerobic incorporation of 1 g-atom of Co(II) into apolaccase gave bands at 528(ϵ = 248), 558 (254) and 589 nm (shoulder) attributable to dd transitions. The MCD spectrum in the corresponding region is similar to that of Co(II)-substituted hemocyanin, indicating that the Co(II) ion incorporated into apolaccase is tetrahedral. On increasing the amount of Co(II) ion acting on the apolaccase, both the intensities of the absorption and the MCD spectra increased, and 2 g-atoms of tetrahedral Co(II) ion were introduced into the apolaccase. Very similar absorption and MCD spectra were obtained when laccase whose type I copper site was occupied by Hg(II) and both type II and type III copper sites were vacant (TlHg apolaccase) was treated with Co(II); this clearly supports the hypothesis that Co(II) cannot be incorporated into a type I copper site but may possibly be incorporated into a type III copper site. A tetrahedral Co(II) ion was also introduced into a type II copper site of type II copper-depleted (T2D) laccase, although its MCD bands were shifted ca. 20 nm to the longer wavelength region from the MCD bands due to tetrahedral Co(II) ion incorporated into type III copper site(s). The present study demonstrate that a tetrahedral Co(II) ion is introduced into type II or type III copper site(s) of laccase.  相似文献   

6.
A simple colorimetric test for the Cu(I) content in blue copper proteins is described. The procedure is based on the formation of a complex between Cu(I) and 2,2'-biquinoline in an acetic acid medium. Analyses of spinach plastocyanin, Pseudomonas aeruginosa azurin and Rhus vernicifera stellacyanin show that the cysteine residue in the type 1 site does not induce Cu(II) reduction under our conditions. There is evidence in laccase samples for the presence of an endogenous reductant that can reduce 0.14 +/- 0.04 mol of Cu(II)/mol of protein; however, the addition of EDTA eliminates the interference. The analysis shows that 25 +/- 2% of the type 3 copper ions are in the reduced form in the resting enzyme and that 80 +/- 15% of the type 3 copper ions are reduced in preparations of type-2-depleted laccase. There is growing interest in the development of chemically modified forms of laccase, and our method should be very useful for establishing the valence state of the metal centres in the various derivatives.  相似文献   

7.
Laccase is a blue copper oxidase with multiple copper ions and widely distributed in higher plant and fungi. To date, numerous fungal laccases have been reported by many researchers. In present work, a new laccase gene, named CcLCC5I, from Coprinus cinereus was synthesized chemically according to the yeast bias codon and integrated into Pichia pastoris GS115 genome by electroporation. SDS-PAGE analysis showed that the recombinant laccase has a molecular mass of approximately 56.8 kDa. Its biochemical properties was carried out using substrate 2-2-azino-bis(3-ethylbenzothiazoline-6-sulfonate) (ABTS). It was showed that the optimum pH and temperature of the laccase is 3.0 and 55 °C, respectively. Except for copper ions, most metal ions inhibited the laccase activity at a high concentration about 10 mM. Sodium sulfite can also highly inhibit laccase activity whereas EDTA had no inhibitory effect on the laccase activity. The CcLCC5I have high ability to decolor not only azo but also aryl methane dyes. The recombinant laccase decolored 44.6 % orange G, 54.8 % Crystal Violet, and 87.2 % Malachite green at about 2.6 h. The novel laccase may be a good candidate for breeding engineering strains used in the treatment of industrial effluent containing azo and aryl methane dyes.  相似文献   

8.
Conidial laccase of Aspergillus nidulans was purified by standard protein purification methods. Although the purified material showed a cluster of several protein bands on a nondenaturing gel, each of these protein bands had laccase activity. All bands of activity, however, were absent in a strain carrying a mutation in the structural gene for laccase. Concentrated solutions (greater than 1 mg/ml) were bright blue, suggesting that, like other laccases, this enzyme contains copper. The enzyme contained asparagine-linked carbohydrate (12% by weight) which could be removed by digestion with endo-beta-N-acetylglucosaminidase H. The molecular weight of native enzyme as determined by gel filtration was 110,000, but the largest component in a sodium dodecyl sulfate gel was 80,000. Several smaller components (55,000 and 36,000 molecular weight) were also visible. We present evidence which suggests that the smaller components are in vivo cleavage products tightly associated with enzymatically active molecules. Comparison of the laccase from a white-spore (wA) and a green-spore (wA+) strain showed, surprisingly, that the enzymes differed in electrophoretic pattern, in vitro heat stability, and in vivo metabolic stability. The difference was manifested for enzymes isolated from cultures after conidial pigmentation of the wA+ strain had occurred. If examined earlier, before pigmentation, the enzymes were indistinguishable. Since wA strains lack the precursor of the wild-type green pigment, i.e., the laccase substrate, we suggest that the transformation of the enzyme of the wA strain is due to its failure to interact with its normal substrate.  相似文献   

9.
 Understanding the structure and function of the three copper atoms in the dioxygen reduction site of the blue oxidases such as laccase has been a long standing challenge. In the case of a widely studied derivative, known as type 2-depleted laccase, the removal of one copper from the cluster abolishes the EPR signal of the so-called type 2 copper. However, the present studies of isotopically enriched protein from Polyporus versicolor show that the readily replaceable copper is not active in the low-temperature EPR spectrum of fungal laccase or its difluoride adduct. The same is true for the difluoride adduct of the tree enzyme. Thus, in type 2-depleted laccase the pattern of antiferromagnetic coupling is quite different from that of the native protein or the difluoride adduct. Received: 5 October 1998 / Accepted: 13 January 1999  相似文献   

10.
The Bacillus subtilis endospore coat protein CotA shows laccase activity. By using comparative modeling techniques, we were able to derive a model for CotA based on the known x-ray structures of zucchini ascorbate oxidase and Cuprinus cereneus laccase. This model of CotA contains all the structural features of a laccase, including the reactive surface-exposed copper center (T1) and two buried copper centers (T2 and T3). Single amino acid substitutions in the CotA T1 copper center (H497A, or M502L) did not prevent assembly of the mutant proteins into the coat and did not alter the pattern of extractable coat polypeptides. However, in contrast to a wild type strain, both mutants produced unpigmented colonies and spores unable to oxidize syringaldazine (SGZ) and 2'2-azino-bis-(3-ethylbenzothiazoline-6-sulfonic acid) (ABTS). The CotA protein was purified to homogeneity from an overproducing Escherichia coli strain. The purified CotA shows an absorbance and a EPR spectra typical of blue multicopper oxidases. Optimal enzymatic activity was found at < or =pH 3.0 and at pH 7.0 for ABTS or SGZ oxidation, respectively. The apparent K(m) values for ABTS and SGZ at 37 degrees C were of 106 +/- 11 and 26 +/- 2 microm, respectively, with corresponding k(cat) values of 16.8 +/- 0.8 and 3.7 +/- 0.1 s(-1). Maximal enzyme activity was observed at 75 degrees C with ABTS as substrate. Remarkably, the coat-associated or the purified enzyme showed a half-life of inactivation at 80 degrees C of about 4 and 2 h, respectively, indicating that CotA is intrinsically highly thermostable.  相似文献   

11.
Tree laccase, a multi-copper oxidase, has been studied as a copper donor in conjunction with the demetalated forms of three blue copper proteins. Copper transfer could be observed under reducing conditions in the absence of air. Only about 10% of the total copper in laccase could be transferred regardless of the amount of acceptor present in solution, hence, the laccase is heterogeneous as isolated. Potential sources of the heterogeneity are considered. After transfer, laccase could be partially resolved into copper-deficient and nearly holoprotein fractions that would not donate copper when recombined with acceptor protein. EPR results in conjunction with thiol titrations indicate that there is no net loss of type 1 copper from laccase but that there is loss of type 2 copper as well as a small amount of type 3 copper. Very little transfer is observed when type 2-depleted laccase is used as the donor. Finally, the implications that these results could have in the elucidation of possibly more physiologically relevant processes are briefly summarized.  相似文献   

12.
The Type 3 copper site is intact but labile in Type 2-depleted laccase   总被引:1,自引:0,他引:1  
We report results of experiments designed to characterize the Type 1 and Type 3 copper sites in Rhus laccase depleted of Type 2 copper (T2D). Use of the Lowry method for determining protein concentration yielded the value 5620 +/- 570 M-1 cm-1 for the extinction of the 615-nm absorption band of this protein. Anaerobic reductive titrations with Ru(NH)3)6(2)+ and Cr(II)aq ions established the presence of three electron-accepting centers, which are reduced in a complex manner. Treatment of T2D laccase with a 70-fold excess of H2O2 induced a new shoulder at 330 nm (delta epsilon = 660 M-1 cm-1), as well as intensity perturbations at 280 and 615 nm. Comparison of difference spectra show that this 330-nm band derives from a Type 3 copper-bound peroxide and not from a reoxidized Type 3 site. Dioxygen reoxidation of ascorbate-reduced T2D laccase produced new difference bands at 330 nm (delta epsilon = 770 M-1 cm-1) and 270 nm (delta epsilon = 13,000 M-1 cm-1), the former assigned to a bound peroxide which is a dioxygen reduction intermediate. In the corresponding epr spectrum of this material new Cu(II) g parallel features (A parallel approximately 130 G) indicative of an isolated copper ion and a triplet signal near 3,400 G were observed, originating from the Type 3 sites of separate T2D laccase molecules. Reoxidation by ferricyanide or by dioxygen as mediated by iron hexacyanide did not produce these changes. Thus the magnetism of the reoxidized Type 3 site in T2D laccase can be perturbed as a consequence of aerobic turnover. The suggestion is advanced that there are presently three forms of T2D laccase, possibly metastable conformational isotypes, accounting for the apparently contradictory reports on the properties of this protein.  相似文献   

13.
Effects of humic acid on removal of hydroxy polychlorobiphenyls (PCBs) with laccase from Trametes versicolor were studied. In the absence of humic acid, hydroxy PCBs were rapidly degraded by laccase. However, the rate constants decreased with increasing humic acid concentration, the reactions being completely inhibited at 150 mg l-1 of humic acid. Peroxidase from Arthromyces ramosus was not inhibited by the same treatment. The activity of humic acid-deactivated laccase was completely restored by copper ions (500 M of Cu2+ in 150 mg l-1 of humic acid), but not by other metal ions (Zn2+, Fe2+ and Hg2+). Humic acid-deactivated laccase purified by gel permeation chromatography (GPC) showed no activity against 2,2-azino-bis(3-ethylbenzthiazoline sulfonic acid) diammonium salt and 3,5-dichloro-4-hydroxybiphenyl, but its activity was restored by copper ion treatment. Humic acid-deactivated laccase showed similar properties, such as GPC retention time and copper ion requirements for activity, to those of laccase deactivated by nitrilotriacetic acid. The extent of humic acid inhibition, expressed as activity non-recoverable by copper ion treatment, increased over time more rapidly than that of the humic acid-free control. These results suggest that short-term inactivation of laccase, i.e., less than 1 day, is attributable to a depletion of copper ion.  相似文献   

14.
Xiao YZ  Chen Q  Hang J  Shi YY  Xiao YZ  Wu J  Hong YZ  Wang YP 《Mycologia》2004,96(1):26-35
The white-rot fungus Trametes sp. AH28-2 can synthesize extracellular laccase by induction in cellobiose-based liquid culture medium. Both yields and composition of laccase isozymes, produced by Trametes sp. AH28-2, would be quite different with induction by different small-molecule aromatic compounds, o-toluidine, guaiacol and 3,5-dihydroxytoluene, which affected microbial growth and the synthesis of laccase isozymes differentially. Higher concentrations of the three inducers could considerably increase laccase isozymes yields but not change the laccase composition. Coculturing of Trametes sp. AH28-2 with either Aspergillus oryzae or Gloeophyllum trabeum showed a few effects on laccase production. Laccase isozyme, laccase B, was selectively induced by 3,5-dihydroxytoluene and purified to homogeneity by two-step chromatography. Purified laccase B appeared as blue, with a broad peak at about 600 nm and a shoulder peak at about 330 nm. The ratio of absorbance at 280 nm to that at 600 nm was 21. Every molecule of laccase B had approximately four copper atoms. Molecular mass of laccase B was estimated to be 74 kDa on SDS-PAGE, 72 kDa by FPLC and was determined to be 71?454 Da by mass spectrum. After being treated with N-glycosidase F, laccase B lost 25% of its molecular mass. The isoelectric point of laccase B was 4.0. Its optimal pH and temperature for oxidizing guaiacol were respectively 4.7 and 45 C. The half-life of the enzyme at 60 C was 14.0 min. The enzyme showed a good stability in a range of pH value of 3.5-7.5. The K(m) values of the enzyme toward substrates syringaldazine, guaiacol, ABTS, and DMOP were respectively 28.0, 1249.0, 177.0 and 109.8 μM. The corresponding V(max) are 504.0, 1910.0, 117.4 and 159.0 μM min(-1) mg(-1). In addition, activity of laccase B was inhibited strongly by sodium azide and cyanide, mildly by SDS and trifluoroacetic acid, but only weakly by dimethyl sulfoxide.  相似文献   

15.
Four closely related cDNA clones encoding laccase isoenzymes from xylem tissues of yellow-poplar (Ltlacc2.1–4) were identified and sequenced. The inferred yellow-poplar laccase gene products were highly related to one another (79–91% at the amino acid level) and showed significant similarity to other blue copper oxidases, especially with respect to the copper-binding domains. The encoded proteins had N-terminal signal sequences and 17–19 potential N-linked glycosylation sites. The mature proteins were predicted to have molecular masses of ca. 61 kDa (unglycosylated) and high isoelectric points (pI 9.3–9.5). The canonical copper ligands were conserved, with the exception of a Leu residue associated with the axial position of the Type-1 cupric ion. The residue at this position has been proposed to influence the redox potential of Type-1 cupric ions. Northern blot analysis revealed that the yellow-poplar laccase genes are differentially expressed in xylem tissues. The genes were verified as encoding active laccases by heterologous expression in tobacco cells and demonstration of laccase activity in extracts from transformed tobacco cell lines.  相似文献   

16.
Fungal laccase B from Polyporus versicolor is a “blue” oxidase containing four copper ions. It consists of a single polypeptide chain of about 545 amino acid residues. The enzyme has been hydrolyzed with pepsin, pronase and thermolysin, and peptides containing the single sulfhydryl group and one of the disulfide bridges have been isolated and characterized. The results show that there is some similarity in amino acid sequence on both sides of the disulfide bridge indicating an internal homology in the laccase molecule. The structure around the single cysteine residue (Leu-His-Cys-His-Ile-Asx-Phe) differs considerably from the cysteine region in low-molecular-weight “blue” proteins like plastocyanin and azurin which contain a single copper ion. However, it shows a pronounced similarity with the sequence around a cysteine residue in human ceruloplasmin suggesting that this structure has an important role in the multi-copper oxidases that is absent or different in the small “blue” proteins. We propose that this role is to constitute a bridge between different copper ions in the molecule and mediate the specific interaction between those which is a crucial feature in the catalytic action of the multi-copper oxidases.  相似文献   

17.
Laccase is a polyphenol oxidase, which belongs to the family of blue multicopper oxidases. These enzymes catalyze the one-electron oxidation of four reducing-substrate molecules concomitant with the four-electron reduction of molecular oxygen to water. Laccases oxidize a broad range of substrates, preferably phenolic compounds. In the presence of mediators, fungal laccases exhibit an enlarged substrate range and are then able to oxidize compounds with a redox potential exceeding their own. Until now, only one crystal structure of a laccase in an inactive, type-2 copper-depleted form has been reported. We present here the first crystal structure of an active laccase containing a full complement of coppers, the complete polypeptide chain together with seven carbohydrate moieties. Despite the presence of all coppers in the new structure, the folds of the two laccases are quite similar. The coordination of the type-3 coppers, however, is distinctly different. The geometry of the trinuclear copper cluster in the Trametes versicolor laccase is similar to that found in the ascorbate oxidase and that of mammalian ceruloplasmin structures, suggesting a common reaction mechanism for the copper oxidation and the O(2) reduction. In contrast to most blue copper proteins, the type-1 copper in the T. versicolor laccase has no axial ligand and is only 3-fold coordinated. Previously, a modest elevation of the redox potential was attributed to the lack of an axial ligand. Based on the present structural data and sequence comparisons, a mechanism is presented to explain how laccases could tune their redox potential by as much as 200 mV.  相似文献   

18.
Reactions of nitric oxide with tree and fungal laccase   总被引:3,自引:0,他引:3  
The reactions of nitric oxide (NO) with the oxidized and reduced forms of fungal and tree laccase, as well as with tree laccase depleted in type 2 copper, are reported. The products of the reactions were determined by NMR and mass spectroscopy, whereas the oxidation states of the enzymes were monitored by EPR and optical spectroscopy. All three copper sites in fungal laccase are reduced by NO. In addition, NO forms a specific complex with the reduced type 2 copper. NO similarly reduces all of the copper sites in tree laccase, but it also oxidizes the reduced sites produced by ascorbate or NO reduction. A catalytic cycle is set up in which N2O, NO2-, and various forms of the enzyme are produced. On freezing of fully reduced tree laccase in the presence of NO, the type 1 copper becomes reoxidized. This reaction does not occur with the enzyme depleted in type 2 copper, suggesting that it involves intramolecular electron transfer from the type 1 copper to NO bound to the type 2 copper. When the half-oxidized tree laccase is formed in the presence of NO, a population of molecules exists which exhibits a type 3 EPR signal. A triplet EPR signal is also seen in the same preparation and is attributed to a population of the enzyme molecules in which NO is bound to the reduced copper of a half-oxidized type 3 copper site.  相似文献   

19.
Electron spin-echo decay envelopes for types I and II copper of Rhus vernicifera laccase and for type II copper of procine ceruloplasmin have been studied. Nuclear modulation patterns show that imidazole is a ligand for all of them. The linear electric field effect (LEFE) in EPR was studied for type I copper in a laccase preparation from which type II had been removed. The symmetry of the site is near tetrahedral and the magnitude of the LEFE is correlated with the intensity of blue color.  相似文献   

20.
Levin L  Forchiassin F  Ramos AM 《Mycologia》2002,94(3):377-383
Trametes trogii, a white rot basidiomycete involved in wood decay worldwide, produces several ligninolytic enzymes, laccase being the dominant one, with higher titers than those reported for most other white rot fungi studied up to date. The effect of copper on in vitro production of extracellular ligninolytic activities was studied. CuSO(4)·5H(2)O concentrations from 1.6 μM to 1.5 mM were tested in a synthetic medium with glucose 20 g/L and asparagine 3 g/L. The addition of copper (up to 1 mM) did not affect growth but strongly stimulated ligninolytic enzyme production; faster decolorization of the polymeric dye Poly R-478 was observed as well. Maximal production of manganese peroxidase, laccase, and glyoxal oxidase [1.28 U/mL, 93.8 U/mL (with a specific activity of 720 U/mg protein), and 0.46 U/mL respectively] was attained with 1 mM CuSO(4)·5H(2)O. However, higher copper concentrations inhibited growth and notably decreased manganese peroxidase production, although they did not affect laccase secretion. Laccase activity in the culture filtrate was maximal at 50 C and pH 3.4, and the enzyme was completely stable at pH 4.4 and above, and at 30 C for up to 5 d. Denaturing polyacrylamide gel electrophoresis of extracellular culture fluids showed two laccase activity bands (mol wt 38 and 60 kDa respectively). The pattern of isoenzyme production was not affected by medium composition but differed with culture age.  相似文献   

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