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1.
Modification of cytochrome P-450 with fluorescein isothiocyanate   总被引:1,自引:0,他引:1  
Fluorescein isothiocyanate (FITC) has been shown to be selectively attached to the N-terminus of cytochrome P-450 LM2. The N-demethylase activity of cytochrome P-450 LM2 reconstituted systems modified in this way was inhibited by 25%. As revealed by CD measurements the overall conformation as well as the immediate heme environment of cytochrome P-450 LM2 remained unchanged after attachment of the FITC molecule. The binding affinity of modified cytochrome P-450 LM2 toward benzphetamine and aniline and the cumene hydroperoxide- or H2O2-supported N-demethylation of benzphetamine are maintained. However, the introduction of the electron via NADPH-cytochrome P-450 reductase (EC 1.6.2.4) is impaired after modification of the alpha-amino group. The extent of reduced modified cytochrome P-450 LM2 in the cytochrome P-450 reductase-supported reduction reaction is diminished and the half-time of the reduction is increased. The diminished reducibility is ascribed to steric hindrance of groups directly involved in the interaction between cytochrome P-450 LM2 and NADPH-cytochrome P-450 reductase or to blocking of the charge-pair interactions between the alpha-amino group of P-450 LM2 and the respective negatively charged group of NADPH-cytochrome P-450 reductase. By energy-transfer measurements distances between the heme and the alpha-amino group of 2.65 and 3.97 nm for the oligomeric and the monomeric forms of P-450 LM2, respectively, have been determined.  相似文献   

2.
Phenobarbital-inducible isozyme cytochrome P-450 LM2 (RH, reduced-flavoprotein:oxygen oxidoreductase (RH-hydroxylating), EC 1.14.14.1) from rabbit liver microsomes has been modified with N-acetylimidazole and tetranitromethane. Up to four tyrosine residues of cytochrome P-450 LM2 are accessible to O-acetylation and to nitration. N-Demethylase activity, spectral dissociation constants and substrate binding kinetics of differently acetylated enzyme indicate the existence of two groups of accessible tyrosines also differing in their reactivity towards N-acetylimidazole. The fast-reacting tyrosine residue representing the first group is involved in the binding of the type II substrate aniline and appears to be located near the heme as shown by the protecting effect of the inhibitor metyrapone against modification, but obviously is not necessary for N-demethylation. Acetylation of one further tyrosine residue, however, caused an almost complete inhibition of the enzyme, indicating its involvement in the catalytic mechanism at the active center. Nitration of two tyrosine residues inactivates to about 20%. Obviously the third and fourth tyrosine residue are without functional importance. The experiments evidencing two functionally linked tyrosines are in line with HPLC analyses of tryptic peptides of cytochrome P-450 LM2 nitrated in the presence of metyrapone which gave evidence for the location of two distinct tyrosine residues in the active center. Nitration of tyrosine residues results in the partial formation of a hyperporphyrin spectrum of cytochrome P-450 LM2. Its appearance is prevented in the presence of metyrapone and can be reversed by reduction of the nitrotyrosinate .  相似文献   

3.
Cytochrome P-450 LM4 (RH, reduced flavoprotein:oxygen oxidoreductase (RH-hydroxylating), EC 1.14.14.1) from rabbit liver microsomes was chemically modified with tetranitromethane. Nitration of two tyrosine residues inhibits the p-nitrophenetole O-deethylase activity of the enzyme by about 80%. Sequencing the 3-nitrotyrosine-containing peptides after HPLC tryptic peptide mapping reveals that mainly Tyr-243 and Tyr-271 are nitrated, whereas Tyr-71, Tyr-188 and Tyr-365 are modified to a lower extent. Nitration of tyrosine residues affects the complex formation with p-nitrophenetole, alpha-naphthoflavone and metyrapone as indicated by an increased affinity towards p-nitrophenetole and by a decreased affinity for the latter compounds. Furthermore, nitration interferes with the electron transfer from NADPH-cytochrome P-450-reductase to cytochrome P-450 LM4 resulting in a slowed down reduction reaction. The results suggest that Tyr-243 and Tyr-271 of cytochrome P-450 LM4 are functionally involved in the interaction with NADPH-cytochrome P-450 reductase.  相似文献   

4.
N,N-Dimethylaniline when added to reaction mixtures provokes deviation from Michaelis-Menten law of the interaction kinetics of NADPH-cytochrome c(P-450) reductase (NADPH:ferrihaemoprotein oxidoreductase, EC 1.6.2.4) with highly purified phenobarbital-induced rabbit liver microsomal cytochrome P-450 (P-450LM2). This phenomenon is not associated with the low-to-high spin transition in the iron-coordination sphere of the haemoprotein, as elicited by the arylamine. Substrate-triggered departure from linearity of the kinetics is abolished by inclusion into the assay media of p-chloromercuribenzoate, hinting at a vital role in the process of thiols. Similarly, the parabolic progress curve (nH = 1.7) is transformed to a straight line (nH = 1.01) when the N-terminal reductase-binding domain in the P-450LM2 molecule is selectively blocked through covalent attachment of fluorescein isothiocyanate (FITC); such a modification does not alter the affinity of the haemoprotein for the amine substrate. Steady-state fluorescence polarization measurements reveal that N,N-dimethylaniline perturbs the motional properties of the fluorophore-bearing reductase-binding region, suggesting the induction of a conformational change. Summarizing these results, the data possibly indicate N,N-dimethylaniline-induced cooperativity in the association of reductase with P-450LM2.  相似文献   

5.
Methoxyflurane is an anesthetic whose metabolism by cytochrome P-450LM2 has been shown to be dependent upon a heat-stable microsomal protein (Canova-Davis, E., and Waskell, L. A. (1982) Biochem. Biophys. Res. Commun. 108, 1264-1270). Treatment of this protein with diethylpyrocarbonate, which modifies selected amino acids, caused a dose-dependent loss in its ability to effect the metabolism of methoxyflurane by purified cytochrome P-450LM2. This protein factor has been identified as cytochrome b5 by demonstrating that cytochrome b5 and the heat-stable factor coelute during cytochrome b5 purification. Neither ferriheme nor apocytochrome b5 was able to substitute for the activating factor, while cytochrome b5 reconstituted from apocytochrome b5 and heme exhibited an activity similar to that of native b5. Examination of the cytochrome b5 molecule by computer graphics suggested that diethylpyrocarbonate did not inactivate b5 by reacting with the anionic surface of the cytochrome b5 molecule. Maximal rates of methoxyflurane metabolism were obtained at a ratio of 1:1:1 of the three proteins, cytochrome P-450LM2:reductase:cytochrome b5. In summary, it has been demonstrated that the heat-stable protein, cytochrome b5, is obligatory for the metabolism of methoxyflurane by cytochrome P-450LM2. These data also suggest that cytochrome b5 may be acting as an electron donor to P-450LM2 in the O-demethylation of methoxyflurane.  相似文献   

6.
The inactivation of five dithionite reduced soluble cytochrome P-450 isoforms has been studied. The inactivation of microsomal rabbit liver isoform LM2 and bacterial linalool cytochrome P-450 is followed by its conversion into cytochrome P-420. Microsomal rabbit liver isoform LM4, bacterial camphor and p-cymene cytochromes P-450 were not inactivated under these conditions. The inactivation of linalool cytochrome P-450 and LM2 isoform is a first order reaction; the rate constants for linalool cytochrome P-450 and LM2 are 0.3 and 0.1 min-1, respectively. In the case of linalool cytochrome P-450 its carboxycomplex (Fe2+-CO) is inactivated, while in the case of LM2 the inactivation affects its oxycomplex (Fe2+-O2). The amino acid residues of linalool cytochrome P-450 are probably modified due to a direct electron transfer in its carboxycomplex. The amino acid residues of LM2 isoform are modified, presumably due to oxidation by oxygen active species which are released during the oxycomplex decay.  相似文献   

7.
The effect of flavone and 7,8-benzoflavone on the metabolism of benzo[a]pyrene to fluorescent phenols by five cytochrome P-450 isozymes obtained from rabbit liver microsomes was determined. Benzo[a]pyrene metabolism was stimulated more than 5-fold by the addition of 600 microM flavone to a reconstituted monooxygenase system consisting of NADPH, cytochrome P-450 reductase, dilauroylphosphatidylcholine, and cytochrome P-450LM3c or cytochrome P-450LM4. In contrast, an inhibitory effect of flavone on benzo[a]pyrene metabolism was observed when cytochrome P-450LM2, cytochrome P-450LM3b, or cytochrome P-450LM6 was used in the reconstituted system. 7,8-Benzoflavone (50-100 microM) stimulated benzo[a]pyrene metabolism by the reconstituted monooxygenase system about 10-fold when cytochrome P-450LM3c was used, but benzo[a]pyrene hydroxylation was strongly inhibited when 7,8-benzoflavone was added to the cytochrome P-450LM6-dependent system. Smaller effects of 7,8-benzoflavone were observed on the metabolism of benzo[a]pyrene by the cytochrome P-450LM2-, cytochrome P-450LM3b-, and cytochrome P-450LM4-dependent monooxygenase systems. These results demonstrate that the activating and inhibiting effects of flavone and 7,8-benzoflavone on benzo[a]pyrene metabolism depend on the type of cytochrome P-450 used in the reconstituted monooxygenase system.  相似文献   

8.
Cytochrome P-450 destruction kinetics by cumene hydroperoxide (CHP) has been studied at 25 degrees C in phosphate buffer, pH 7.25-7.50, in various systems: intact and induced rat or rabbit microsomes, highly purified LM2- and LM2- and LM4-forms of cytochrome P-450 from rabbit liver microsomes. The destruction kinetics is characterized by three phases in all systems. The CHP-influenced cytochrome P-450 destruction is a radical chain process with linear termination of the chains. The acidic phospholipids, phosphatidylserine and phosphatidylinositol and total microsomal phospholipids containing the acidic lipid components activate cytochrome P-450 in the hydroxylation of aniline and naphthalene by CHP. Phosphatidylcholine and sphingomyelin have no effect upon the cytochrome P-450 activity in the type I and II substrates oxidation by CHP. The phase transitions of the microsomal phospholipids influence the interaction of cytochrome P-450 with its reductase, altering the activation energy of type I substrates oxidation. The type II substrate oxidation is not affected by phase transitions in the full microsomal hydroxylating system.  相似文献   

9.
Carboxyl groups of NADPH-cytochrome P-450 reductase have been modified with the water-soluble carbodiimide EDC. Although there is no significant loss in DCPIP reduction the activity with cytochrome c and cytochrome P-450 LM2 as electron acceptors was inhibited by about 60 and 85%, respectively (1 h incubation time, 20 mM EDC). The inactivation by EDC was nearly completely prevented in the presence of cytochrome P-450 LM2, but not by bovine serum albumin. These results and crosslinking studies suggest that carboxyl groups of NADPH-cytochrome P-450 reductase are involved in charge-pair interactions to cytochrome c and to at least two amino groups of cytochrome P-450 LM2.  相似文献   

10.
Subunit interactions of highly purified hexameric cytochrome P-450 LM 2 has been studied using covalent binding of one of the six protomers to an insoluble matrix. Immobilized cytochrome was catalytically active in monooxygenase reactions and retained the spectral characteristics of cytochrome P-450 LM 2. High ionic strength, large scale pH changes and addition of guanidine chloride were without effect on the aggregation state of the immobilized hemoprotein. However, several detergents induced hexamer dissociation. The crucial role of hydrophobic forces in hexamer subunit interaction was demonstrated. Incubation of the immobilized cytochrome P-450 LM 2 with sonicated liposomes composed of various phospholipids did not result in oligomer dissociation and protein translocation from the matrix to the lipid phase, although the catalytic activity of the immobilized cytochrome significantly increased in the presence of liposomes. The data suggest that cytochrome P-450 LM 2 may be of hexameric structure in the native membranes.  相似文献   

11.
Procedures are described for the isolation of two forms of rabbit liver microsomal liver microsomal cytochrome P-450 (P-450LM) in homogeneous state. They are designated by their relative electrophoretic mobilities on polyacrylamide gel in the presence of sodium dodecyl sulfate as P-450LM2 and P-450LM4. P-450LM2, which was isolated from phenobarbital-induced animals, has a subunit molecular weight of 48,700. The best preparations contain 20 nmol of the cytochrome per mg of protein and 1 molecule of heme per polypeptide chain. P-450LM4, which is induced by beta-naphthoflavone but is also present in phenobarbital-induced and untreated animals, was isolated from all three sources and found to have a subunit molecular weight of 55,300. The best preparations contain 17nmol of the cytochrome per mg of protein and 1 molecule of heme per polypeptide chain. Some of the purified preparations of the cytochromes, although electrophoretically homogeneous, contain apoenzyme due to heme loss during purification. The purified proteins contain no detectable NADPH-cytochrome P-450 reductase, cytochrome b5, or NADH-cytochrome b5 reductase, and only low levels of phospholipid (about 1 molecule per subunit). Amino acid analysis indicated that P-450LM2 and P-450LM4 are similar in composition, but the latter protein has about 60 additional residues. The COOH-terminal amino acid of P-450LM2 is arginine, as shown by carboxypeptidase treatment, whereas that of P-450LM4 is lysine. NH2-terminal amino acid residues could not be detected. Carbohydrate analysis indicated that both cytochromes contain 1 residue of glucosamine and 2 of mannose per polypeptide subunit. The optical spectra of the oxidized and reduced cytochromes and carbon monoxide complexes were determined. Oxidized P-450LM2 has maxima at 568, 535, and 418 nm characteristic of a low spin hemeprotein, and P450LM4 from beta-naphthoflavone-induced, phenobarbital-induced, or control microsomes has maxima at 645 and 394 nm, characteristic of the high spin state. The spectrum of -450lm4 becomes similar to that of P-450LM2 at high protein concentrations or upon the addition of detergent (Renex), whereas the spectrum of P-450LM2 is unaffected by the protein concentration or the presence of detergent. Electron paramagnetic resonance spectrometry of the purified cytochromes indicated that oxidized -450lm2 is in the low spin state, whereas P-450LM4 is largely, but not entirely, in the high spin state.  相似文献   

12.
The ethanol-induced rabbit liver microsomal cytochrome P-450, P-450LM3a, has been shown previously to efficiently catalyze the demethylation of N-nitrosodimethylamine (NDMA) with a Km of 2.9 mM. Since the predominant Km in hepatic microsomes from ethanol-treated rabbits is 0.07 mM, the role of P-450LM3a in the activation of this carcinogen has been uncertain. In the present study, antibodies to P-450LM3a were shown to almost completely inhibit NDMA demethylation by the purified P-450 in a reconstituted system as well as the low-Km activity of liver microsomes from control or ethanol-treated rabbits. In contrast, the antibody did not inhibit the high-Km NDMA demethylase activity in the microsomes. These results indicate that P-450LM3a is the major P-450 responsible for the low-Km NDMA demethylase activity. In addition, evidence is provided for the existence of a cytochrome immunochemically similar to P-450LM3a in liver microsomes from rats, mice, and guinea pigs that effectively catalyzes the demethylation of NDMA.  相似文献   

13.
The roles of rabbit liver cytochrome b5, epoxide hydrase and various forms of cytochrome P-450 in the NADPH-dependent metabolism of benzo(a)pyrene were examined. After incorporation of the purified enzymes into phospholipid vesicles, using the cholate gel filtration technique, the various types of cytochrome P-450 did exhibit different stereospecificities in the oxygenation of the substrate. Cytochrome P-450LM2 was found to efficiently convert benzo(a)pyrene in the presence of epoxide hydrase to 4,5-dihydroxy-4,5-dihydrobenzo(a)pyrene whereas cytochrome P-450LM4 primarily participated in the formation of 9,10-dihydroxy-9,10-dihydrobenzo(a)pyrene. By contrast, benzo(a)pyrene was not metabolized by cytochrome P-450LM3. Cytochrome b5 enhanced cytochrome P-450LM2-catalyzed oxygenations 5-fold, whereas cytochrome P-450LM4-dependent oxygenations proceeded at a 3 times higher rate when cytochrome b5 was present in the membrane.  相似文献   

14.
A new form of cytochrome P-450 has been purified from untreated male rabbit liver microsomes. This form was designated P-450 LM2b on the basis of its electrophoretic mobility on SDS polyacrylamide gel, where it migrates as a polypeptide of apparent molecular weight of 50,250. This hemoprotein exhibits a maximum at 448.5 nm in the Soret band of the CO-Ferrous state spectrum. On the basis of its molecular, spectral, enzymologic and immunologic data, P-450 LM2b was shown to be distinct from the other P-450 forms, already characterized in rabbit liver microsomes. However P-450 LM2b and P-450 LM3b appear to be immunologically related proteins.  相似文献   

15.
A form of cytochrome P-450 which comigrates with cytochrome P-450LM4 (molecular weight, 55 000) on SDS-polyacrylamide gel was purified from liver microsomes of cholestyramine-treated rabbits. This form of cytochrome P-450 catalyzed the 7 alpha-hydroxylation of cholesterol with an activity of 37.5 pmol/min per nmol cytochrome P-450 in the reconstituted enzyme system containing cytochrome P-450 and NADPH-cytochrome P-450 reductase. The substrate specificity of this form of cytochrome P-450 was compared with cytochrome P-450LM4 isolated from phenobarbital- and beta-naphthoflavone-treated rabbit liver microsomes. The latter two isoenzymes do not catalyze 7 alpha-hydroxylation of cholesterol, but are more active in O-deethylation of 7-ethoxycoumarin and p-nitrophenetole. Ouchterlony double diffusion revealed cross-reactivity between anti-P-450LM4 (phenobarbital) IgG and cytochrome P-450 isolated from cholestyramine- or beta-naphthoflavone-treated rabbit liver microsomes. A two-dimensional iodinated tryptic peptide fingerprint indicated only minor structural differences among these three cytochrome P-450LM4 preparations.  相似文献   

16.
The zwitterionic detergent 3-(3-cholamidopropyl)-dimethylammonio-1-propanesulfonate (CHAPS) supports reconstituted cyclohexane hydroxylase activity of cytochrome P-450LM2 and NADPH-cytochrome reductase purified from phenobarbital-induced rabbit liver. Maximum activity (approximately 50% of that with phospholipid) was observed at 2 mM CHAPS. Inhibition took place at higher CHAPS, until at 20 mM CHAPS, no cyclohexane hydroxylase activity was observed. There was little denaturation of the two enzymes under these conditions. At 2 mM CHAPS, P-450LM2 was pentameric (Mr = 250,000) and reductase was dimeric (Mr = 139,500) by sedimentation equilibrium. P-450 was monomeric in 20 mM CHAPS. In addition, a stable complex between the two enzymes was not detected under conditions of maximum activity, even in the presence of saturating substrate. This confirms our previous conclusion that a stable complex between cytochrome P-450LM2 and NADPH-cytochrome P-450 reductase is not a prerequisite for reconstituted xenobiotic hydroxylation (Dean, W. L., and Gray, R. D. (1982) J. Biol. Chem. 257, 14679-14685). Difference spectra of ferric P-450LM2 revealed that below 5 mM CHAPS, the high spin form of the cytochrome was slightly stabilized, while higher CHAPS levels stabilized the low spin form. Monomeric P-450LM2 formed with 20 mM CHAPS catalyzed the hydroxylation of toluene by cumene hydroperoxide. Thus, the reason that monomeric cytochrome P-450LM2 was inactive in NADPH-supported hydroxylation may either be because the bound detergent blocked productive interaction of the cytochrome with reductase or the monomer may be intrinsically incapable of interaction with reductase.  相似文献   

17.
To understand the different behaviour of cytochrome P-450 systems in kinetics as well as in the demethylase activity, sedimentation and molecular weight experiments have been carried out with the following results: 1) Sedimentation coefficients of solubilized P-450 and P-450 LM2 fractions amount to 24 +/- 4 [S] and 12.8 +/- 1.2 [S], respectively. Molecular weights were determined to be 1.0 +/- 0.2 . 10(6) and 3.0 +/- 0.5 . 10(5) Dalton. 2) Triton N-101 provokes splitting of the associated structure both of solubilized P-450 and P-450 LM2; this effect is reversible. 3) The dissociation depends not only on the absolute concentration of Triton but rather on the Triton P-450 ratio. The dissociation curves of solubilized P-450 and P-450 LM2 are similar in shape and in the Triton/P-450 ratio dependence. 4) In the presence of small concentrations of Triton a more complicated dissociation behaviour was observed with broad integral distribution of the sedimentation coefficients. 5) The ionic detergent cholate splits the associated structure of P-450 LM2 at considerably higher concentrations in comparison with Triton-N 101. 6) Addition of reductase causes a decrease of sedimentation coefficients and molecular weights of solubilized P-450. The same effect in P-450 LM2 could be observed only in the presence of phospholipids.  相似文献   

18.
Native cytochrome b5 interacts with either RLM5 or LM2 to form tight equimolar complexes (Kd = 250 and 540 nM, respectively) in which the content of high spin cytochrome P-450 was substantially increased. Cytochrome b5 caused 3- and 7-fold increases in the binding affinities of RLM5 and LM2 for benzphetamine, respectively, and benzphetamine decreased the apparent Kd for cytochrome b5 binding. Upon formation of the ternary complex between cytochromes P-450, b5, and benzphetamine the percentage of cytochrome P-450 in the high spin state was increased from 28 to 74 (RLM5) and from 9 to 85 (LM2). Cytochrome b5 caused 13- and 7-fold increases in the rate of RLM5- and LM2-dependent p-nitroanisole demethylation, respectively. Amino-modified (ethyl acetimidate or acetic anhydride) cytochrome b5 produced results similar to those obtained above with native cytochrome b5. In contrast, modification of as few as 5 mol of carboxyl groups/mol of amidinated cytochrome b5 resulted in both a substantial loss of the spectrally observed interactions with either cytochrome P-450 LM2 or cytochrome P-450 RLM5, and in a loss of the cytochrome b5-mediated stimulation of p-nitroanisole demethylation catalyzed by either monooxygenase. In further studies, native and fully acetylated cytochromes b5 reoxidized carbonmonoxy ferrous LM2 at least 20 times faster than amidinated, carboxyl-modified cytochrome b5 derivatives. In contrast, amidination, or acetylation of amino groups, or amidination of amino groups plus methylamidination of the carboxyl groups did not appreciably slow the rate of reduction of the cytochrome b5 by NADPH-cytochrome P-450 reductase. Collectively, the results provide strong evidence for an essential role of cytochrome b5 carboxyl groups in functional interactions with RLM5 and LM2.  相似文献   

19.
Selective chemical modification of the hemoprotein by tetranitromethane was used in order to elucidate the functional role of tyrosine residues in the cytochrome P-450 LM2 molecule. It was shown that the degree of cytochrome P-450 LM2 modification can be determined, using the second derivative of the UV absorption spectra. Modification of one tyrosine residue resulted in the inactivation of cytochrome P-450 LM2. Nitration of the cytochrome was accompanied by changes in the spectral properties of the hemoprotein with the formation of spectra typical of hyperporphyrin structures, thus suggesting the involvement of tyrosine residues in the formation of the active center of cytochrome P-450 LM2.  相似文献   

20.
The hydroxylation of prostaglandin (PG) E1, PGE2, and PGA1 was investigated in a reconstituted rabbit liver microsomal enzyme system containing phenobarbital-inducible isozyme 2 or 5,6-benzoflavone-inducible isoenzyme 4 of P-450, NADPH-cytochrome P-450 reductase, phosphatidylcholine, and NADPH. Significant metabolism of prostaglandins by isozyme 2 occurred only in the presence of cytochrome b5. Under these conditions, PGE1 hydroxylation was linear with time (up to 45 min) and protein concentration, and maximal rates were obtained with a 1:1:2 molar ratio of reductase: cytochrome b5:P-450LM2. Moreover, P-450LM2 catalyzed the conversion of PGE1, PGE2, and PGA1 to the respective 19- and 20-hydroxy metabolites in a ratio of about 5:1, and displayed comparable activities toward the three prostaglandins based on the total products formed in 60 min. Apocytochrome b5 or ferriheme could not substitute for intact cytochrome b5, while reconstitution of apocytochrome b5 with ferriheme led to activities similar to those obtained with the native cytochrome. Isozyme 4 of P-450 differed markedly from isozyme 2 in that it catalyzed prostaglandin hydroxylation at substantial rates in the absence of cytochrome b5, was regiospecific for position 19 of all three prostaglandins, and had an order of activity of PGA1 greater than PGE1 greater than PGE2. P-450LM4 preparations from untreated and induced animals had similar activities with PGE1 and PGE2, respectively. Addition of cytochrome b5 resulted in a 20 to 30% increase in the rate of PGE1 hydroxylation and an appreciably greater enhancement in the extent of all the P-450LM4-catalyzed reactions, the stimulation being greatest with PGE2 (3-fold) and least with PGA1 (1.6-fold). Cytochrome b5 was thus required for maximal metabolism of all three prostaglandins, but did not alter the regiospecificity or the order of activity of P-450 isozyme 4 with the individual substrates. In the presence of cytochrome b5, the prostaglandin hydroxylase activities of isozyme 4 were two to six times higher than those of isozyme 2.  相似文献   

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