Expression of bovine cytochrome P450c21 and its fused enzymes with yeast NADPH-cytochrome P450 reductase in Saccharomyces cerevisiae

Recombinant plasmids for expression of bovine cytochrome P450c21 (pA gamma 2), both P450c21 and yeast NADPH-cytochrome P450 reductase (pAR gamma 1), P450c21/yeast reductase fused enzymes (pAF gamma R1, pAF gamma R2, and pAF gamma R20), and yeast reductase/P450c21 fused enzymes (pAFR gamma 1 and pAFR gamma 2) were constructed by using expression vector pAAH5. The plasmids were each introduced into the yeast Saccharomyces cerevisiae AH22 cells. The recombinant yeast strains AH22/pA gamma 2 (Y21) and AH22/pAR gamma 1 (Y21R) produced 2-3 X 10(3) molecules of P450c21 per cell. The cultures of both strains converted progesterone and 17 alpha-hydroxyprogesterone into 11-deoxycorticosterone and 11-deoxycortisol, respectively. The 21-hydroxylase activity per cell of the strain Y21R was about three times higher than that of the strain Y21, probably due to overproduction of yeast reductase. The recombinant yeast strains AH22/pAF gamma R1 (Y21RF1), AH22/pAF gamma R2 (Y21RF2), and AH22/pAF gamma R20 (Y21RF20) produced about 1.1-2.0 X 10(4) molecules per cell of the corresponding P450c21/yeast reductase fused enzymes. The specific 21-hydroxylase activity toward 17 alpha-hydroxyprogesterone per cell of the strains Y21RF1, Y21RF2, and Y21RF20 was about 21, 28, and 49 times higher than that of the strain Y21, respectively. Thus, the fused enzymes were superior to P450c21 in the specific activity and in the expression level in the yeast. The Km values for 17 alpha-hydroxyprogesterone of P450c21 in the strains Y21 and Y21R, and of the fused enzymes in the strains Y21RF1 and Y21RF2 were 0.29, 0.30, 0.67, and 0.65 microM, respectively. The Vmax values of P450c21 in the strains Y21 and Y21R, and of the fused enzymes in the strains Y21RF1 and Y21RF2 were 28, 124, 151, and 222 moles/min.mole P450c21 or fused enzyme, respectively. These results indicated that the fused enzymes showed lower affinity for the substrate, probably due to structural modification and higher reaction rates through efficient intramolecular electron transfer as compared with those of P450c21. While the strain AH22/pAFR gamma 2 (YR21F2) produced about 3 X 10(4) molecules per cell of the reductase/P450c21 fused enzyme, the specific 21-hydroxylase activity of the fused enzyme toward 17 alpha-hydroxyprogesterone was extremely low, suggesting that the structure of the fused enzyme might not be suited for electron transfer in yeast microsomes.     

Attenuation of a virulent Aeromonas hydrophila with novobiocin and pathogenic characterization of the novobiocin‐resistant strain

Aim

To determine whether novobiocin resistance strategy could be used to attenuate a virulent Aeromonas hydrophila AH11P strain and to characterize the growth and pathogenic differences between the novobiocin‐resistant strain and its virulent parent strain AH11P.

Methods and Results

A novobiocin‐resistant strain AH11NOVO was obtained from a virulent Aer. hydrophila strain AH11P through selection of resistance to novobiocin. AH11NOVO was found to be avirulent to channel catfish (Ictalurus punctatus), whereas AH11P was virulent. When AH11NOVO vaccinated channel catfish were challenged with AH11P at 14 days postvaccination, relative per cent of survival of vaccinated fish was 100%. The cell proliferation rate of AH11NOVO was found to be significantly (P < 0·05) less than that of AH11P. In vitro motility assay revealed that AH11NOVO was nonmotile, whereas AH11P was motile. AH11NOVO had significantly (P < 0·05) lower in vitro chemotactic response to catfish mucus than that of AH11P. Although the ability of AH11NOVO to attach catfish gill cells was similar to that of AH11P, the ability of AH11NOVO to invade catfish gill cells was significantly (P < 0·05) lower than that of AH11P.

Conclusions

The novobiocin‐resistant AH11NOVO is attenuated and different from its parent AH11P in pathogenicity.

Significance and Impact of the Study

The significantly lower chemotactic response and invasion ability of AH11NOVO compared with that of its virulent parent strain AH11P might shed light on the pathogenesis of Aer. hydrophila.     

Stability and expression of a plasmid-containing killer toxin cDNA in batch and chemostat cultures of saccharomyces cerevisiae

A chimeric plasmid (pYT760-ADH1) containing the yeast killer toxin-immunity cDNA was transformed into a leucine-histidine mutant (AH22) and into four industrial toxin-sensitive yeasts. The chimeric plasmid was very stable and expressed toxin production (89.5 +/- 4.8% killer cells) in two of the transformed yeasts that contained the 2mu plasmid, but was lost within 10 generations from two other transformed pickle yeasts that did not contain the 2mu plasmid. It suggested that plasmid stability was dependent on the presence of the 2mu plasmid which is naturally present in some yeasts. The plasmid was extremely stable (100% killer cells) and expressed more toxin in the mutant strain AH22. The effects of dilution rate, D(h(-1)) on plasmid stability and toxin expression were studied in transformed AH22 (AH22/T3) and Montrachet 522 (522/T1) wine yeast grown in glucose-limited chemostat cultures. The results show that killer toxin production by AH22/T3 cells increased as a function of D(h(-1)) and that plasmid stability reached 100% at D >/= 0.09 +/- 0.01 h(-1). However, with Montrachet 522/T1 transformed cells, 100% plasmid stability was seen at D >/= 0.18 +/- 0.02. h(-1). We also challenged the AH22/T3 in chemostat culture (D = 0.25 h(-1)) with an equal number of untransformed cells (AH22). Transformed cells dominated the population (100%) within 8-10 h of growth, a time equivalent to two mean residence time.     

CYP78A1 Preferentially Expressed in Developing Inflorescences of Zea mays Encoded a Cytochrome P450-Dependent Lauric Acid 12-Monooxygenase

Cytochrome P450 (P450 or CYP) monooxygenases play an important role in the oxidation of a number of lipophilic substrates including secondary metabolites in higher plants. Larkin reported that CYP78A1 was preferentially expressed in developing inflorescences of Zea mays (Larkin, Plant Mol. Biol. 25: 343-353, 1994). However, the enzymatic function of CYP78A1 hasn’t been clarified yet. To characterized the enzymatic activity of CYP78A1, in this study, CYP78A1 cDNA and tobacco or yeast NADPH-cytochrome P450 oxidoreductase (P450 reductase) was expressed in the yeast Saccharomyces cerevisiae AH22 cells under the control of alcohol dehydrogenase promoter I and terminator. The reduced CO-difference spectrum of a microsomal fraction prepared from the transformed yeast cells expressing CYP78A1 and yeast P450 reductase showed a peak at 449 nm. Based on the spectrum, the content of a P450 molecule was estimated to be 45 pmol P450 equivalent/mg of protein in the microsomal fraction. The recombinant yeast microsomes containing CYP78A1 and yeast P450 reductase were found to catalyze 12-monooxygenation of lauric acid. Based on these results, CYP78A1 preferentially expressed in developing inflorescences of Zea mays appeared to have participated in the monooxygenation of fatty acids.     

Expression of bovine adrenodoxin and NADPH-adrenodoxin reductase cDNAs in Saccharomyces cerevisiae

Expression of both bovine adrenodoxin (ADX) and NADPH-adrenodoxin reductase (ADR) were examined in Saccharomyces cerevisiae. Three ADX and two ADR expression plasmids were constructed by inserting each of the corresponding cDNA fragments between the yeast alcohol dehydrogenase I promoter and terminator of the expression vector pAAH5N. Plasmids pAX and pMX contained the coding region for the precursor and mature ADX, respectively, while pCMX carried the mature ADX preceded by the mitochondrial signal of yeast cytochrome c oxidase subunit IV (COX IV). Similarly, pMR and pCMR coded for mature ADR without and with the mitochondrial signal of yeast COX IV, respectively. Transformed S. cerevisiae AH22[rho 0]/pAX cells produced the ADX precursor, while AH22[rho 0]/pMX and AH22[rho 0]/pCMX cells produced mature ADX (mat-ADX) and modified ADX (mat-COX/ADX), respectively. Mat-ADX and mat-COX/ADX were found mainly in the cytosolic and mitochondrial fractions, respectively, and showed cytochrome c reductase activity. AH22[rho+]/pMR and AH22[rho+]/pCMR cells produced mature ADR (mat-ADR) and modified ADR (mat-COX/ADR), respectively. Mat-ADR lacking the mitochondrial signal was found in the cytosolic fraction and exhibited cytochrome c reductase activity, while mat-COX/ADR was localized in the mitochondrial fraction, but showed no reductase activity. In an in vitro reconstituted system consisting of both mat-COX/ADX- and mat-ADR-containing fractions, bovine P450scc converted cholesterol into pregnenolone. Thus mat-COX/ADX and mat-ADR produced in the yeast can transfer electrons from NADPH to P450scc.     

Expression and Secretion of Scytalidopepsin B,an Acid Protease from Scytalidium lignicolum,in Yeast

An expression and secretion system for scytalidopepsin B, an acid protease from Scytalidium lignicolum, was constructed in yeast. Saccharomyces cerevisiae AH22 was transformed with an yeast-E. coli shuttle vector, pAM82, in which an yeast invertase signal segment and the cDNA encoding the pro- and mature enzyme regions were inserted. The transformant was found to secret a pepstatin-insensitive acid protease, when cultured aerobically in a low phosphate (Pi) medium. Amino terminal amino acid sequencing analysis indicated that the recombinant acid protease was accurately processed and secreted as a mature form.     

酵母双杂交筛选心脏cDNA文库中与人热激蛋白70相互作用的蛋白质

目的:利用酵母双杂交系统从人心肌cDNA文库中筛选与热激蛋白70(HSP70)相互作用的蛋白质。方法:从人心脏cDNA文库扩增Hsp70基因,克隆于pGBKT7载体上,酶切鉴定及序列分析,并检测pGBKT7-Hsp70酵母细胞AH109中的自激活活性;将构建的酵母表达诱饵质粒载体pGBKT7-Hsp70转化AH109酵母细胞,与转化有人心脏cDNA文库的酵母Yl87进行交配实验,筛选与HSP70相互作用的蛋白质,通过一对一的回复杂交实验排除假阳性,对阳性克隆进行序列测定和生物信息学分析。结果:构建了"诱饵"质粒栽体pGBKT7-Hsp70,并证明其在酵母双杂交系统中无自激活活性,筛选得到多个与Hsp70相互作用的阳性转化子,并最终得到HSP70的1个相互作用蛋白质HIP。结论:应用酵母双杂交系统筛选出与HSP70相互作用的1个蛋白质,它们的相互作用可能与HSP70发挥细胞分子伴侣作用有关。     

Large-scale production of yeast hybrids by electrofusion

Abstract Large-scale production of electrically fused yeast protoplasts from Saccharomyces cerevisiae AH 22[pADH 040-2] and S. cerevisiae AH215 was achieved by the use of the so-called helical fusion chamber. Both strains were of the same mating type a and carried the following auxotrophic markers: his4 in the case of AH22 and leu2, his3 in the case of AH215.
AH22 also is a carrier of the plasmid pADH 040-2. This plasmid confers the leu2 gene of yeast and the β-lactamase gene from Escherichia coli , and this feature enables quick detection of plasmid-positive cells.
After dielectrophoresis (275 V/cm, 800 kHz) fusion was induced by two field pulses (10 kV/cm, 10 μs duration) applied at an interval of 0.5 s. 50 to 60 hybrids per run were isolated after regeneration on selection medium.     

应用酵母双杂交系统筛选新基因Collectrin相关蛋白

Collectrin是在小鼠 5 6肾切除后 ,在肾小球的高滤过、高增生期分离克隆的一个新基因 .通过酵母双杂交系统从人肾脏cDNA文库中筛选与collectrin相互作用的蛋白 ,可以为该基因的功能研究提供线索 .构建collectrin的真核表达载体collectrin pGBKT7 c myc ,转化酵母菌AH10 9.Western印迹证实 ,collectrin蛋白能够在酵母中正常表达 ,对酵母细胞无毒性 ,不存在自激活现象 .将AH10 9 collectrin pGBKT7 c myc与转化了成人肾脏cDNA文库的酵母菌Y187接合 ,共筛选到 5个与细胞代谢有关的蛋白 ,包括鞘磷脂激活蛋白、精氨琥珀酸合成酶、氨基酸转运蛋白XAT2、NADH脱氢酶 1和金属硫蛋白 2A .由此推论 ,collectrin可能通过与细胞内某些酶类相互作用而影响细胞代谢 ,为新基因collectrin的功能研究提供了重要线索 .     

Cloning, expression in yeast, and functional characterization of CYP76A4, a novel cytochrome P450 of petunia that catalyzes (omega-1)-hydroxylation of lauric acid

A cDNA clone of a novel cytochrome P450, CYP76A4, was isolated from Petunia hybrida. The cDNA clone contained an open reading frame (ORF) encoding a predicted 510 amino acid polypeptide. The CYP76A4 cDNA was expressed in yeast Saccharomyces cerevisiae AH22. Recombinant yeast microsomes containing the CYP76A4 hemoprotein were found to catalyze (omega-1)-hydroxylation of lauric acid.     

Expression of UDP-glucuronosyltransferase cDNA in Saccharomyces cerevisiae as a membrane-bound and as a cytosolic form

The mouse clone UDPGTm-1 encodes a UDP-glucuronosyltransferase enzyme which was isolated from a lambda gt11 cDNA library constructed with phenobarbital-induced liver mRNA [Kimura, T., & Owens, I. S. (1987) Eur. J. Biochem. 168, 515-521]. In order to establish substrate specificity, UDPGTm-1 was inserted into the yeast vector pEVP11 and expressed in Saccharomyces cerevisiae strain AH22. Cells transformed with the expression unit pUDPGTm-1c (insert in correct orientation with respect to promoter) stably transcribe the transferase cDNA. Consistent with the presence of mRNA, pUDPGTm-1c-transformed AH22 cells synthesize a transferase protein with Mr congruent to 51,000 by Western immunoblot analysis. The membrane-bound transferase expressed in yeast in glycosylated as indicated by its enhanced electrophoretic mobility in a SDS-polyacrylamide gel following endoglycosidase H treatment and detection by Western immunoblot analysis. A survey, using 12 aglycons in an assay with microsomes from cells which express the protein, shows preferential glucuronidation of naphthol and estrone followed by p-nitrophenol. Testosterone, phenolphthalein, dihydrotestosterone, androsterone, and 4-methylumbelliferone are conjugated at an intermediate level. There is barely detectable glucuronidation of 3-hydroxy- and 9-hydroxybenzo[a]pyrene and no detectable conversion of morphine or lithocholic acid. The truncated cDNA (lacking the putative membrane-insertion signal-peptide coding sequence, but with a newly adapted translation-start codon) is ligated into pAAH5 and is expressed as a cytosolic transferase form in the protease-deficient ZA521 strain of S. cerevisiae. The Mr congruent to 51,000-52,000 is similar to that seen in microsomes from AH22 cells where the protein is presumably processed as it is inserted into the membrane.(ABSTRACT TRUNCATED AT 250 WORDS)     

A novel ISFET-type biosensor based on P450 monooxygenases

We made a biosensor based on ion-sensitive field effect transistor (ISFET) using P450 monooxygenase. ISFETs are electrical devices and have been used as pH sensors. We used genetically engineered P450 monooxygenase for our research because of its high enzymatic activity. The fusion enzyme between rat CYP1A1P450 monooxygenase and yeast NADPH-cytochrome P450 oxidoreductase was expressed in yeast Saccharomyces cerevisiae strain AH22. Yeast microsomal membranes were immobilized in an agarose layer on the ISFET. o-Deethylation of 7-ethoxycoumarin to 7-hydroxycoumarin was catalyzed by the enzyme in the presence of nicotinamide adenine dinucleotide phosphate reduced form (NADPH). Formation of 7-hydroxycoumarin from 7-ethoxycoumarin was also measured by fluorescence. The difference of the voltage between the ISFET device and control device without enzymes showed a voltage increase along with the enzymatic reaction of P450 monooxygenases, and this voltage increase in the device was inhibited by addition of MnCl(2), an inhibitor of P450 monooxygenase. There was a positive correlation between the voltage increase in the ISFET device and the fluorescence intensity. This is the first electrochemical biosensing using P450 monooxygenases immobilized on the ISFET, and is applicable to the sensing of chlorophenol compounds.     

A new approach to the production of the recombinant SOD protein by methylotrophic <Emphasis Type="Italic">Pichia pastoris</Emphasis>

The gene for the copper, zinc–superoxide dismutase (SOD) from the yeast Saccharomyces cerevisiae was cloned, characterized, and overexpressed in the methylotrophic Pichia pastoris. The sod gene sequence obtained is 465 bp and encodes 154 amino acid residues. The sod gene sequence was cloned into the pPIC9K vector, yielding pAB22. The linearized pAB22 DNA, digested with restriction enzyme SacI, was transformed into the genome of the GS115 strain of yeast P. pastoris. The overexpressed SOD protein was shown to have immunologically biological activity and to be enzymatically active. The SOD protein was purified from the cultured yeast by ammonium sulfate precipitation and diethylaminoethyl–cellulose column chromatography. This relatively simple purification method produced a single band on analysis by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE), which indicated that the SOD protein obtained attained to higher purity and specific activity.     

Characterization of rat cytochrome P-450MC synthesized in Saccharomyces cerevisiae

Rat cytochrome P-450MC cDNA was expressed in Saccharomyces cerevisiae AH22, SHY3 and NA87-11A cells under the control of the yeast ADH1 promoter and terminator. Although the three yeast strains transformed with the constructed expression plasmid, pAMC1, contained approximately three copies of the plasmid, the levels of both P-450MC mRNA and the corresponding protein in the AH22 cells carrying plasmid pAMC1 were 1.4- to 1.7-fold and 2-fold higher than in the other two strains, respectively. The P-450MC protein was purified from the microsomal fraction of AH22 cells carrying pAMC1 by a rapid purification method. The apparent molecular weight, chromatographic behavior, spectral properties, substrate specificity and immunochemical properties of the purified P-450MC protein were indistinguishable from those of rat liver P-450MC-I and P-450MC-II (Sasaki, T., et al. (1984) J. Biochem. 96, 117-126). The NH2-terminal amino acid sequence of the purified protein up to 10 residues was the same as those of P-450MC-I and P-450MC-II. In addition, HPLC analysis of the microsomal fraction of AH22 cells containing pAMC1 indicated that the synthesized P-450MC protein corresponds to P-450MC-II, but not P-450MC-I. With another purification method, we obtained the cleaved P-450MC protein which lacked the NH2-terminal 30 amino acids of intact P-450MC. The spectral properties and monooxygenase activities towards benzo(a)pyrene and 7-ethoxycoumarin of the cleaved P-450MC were nearly the same as those of intact P-450MC.     

Monooxygenase activity of Saccharomyces cerevisiae cells transformed with expression plasmids carrying rat cytochrome P-450MC cDNA

The recombinant plasmids pAMC1 and pJMC1 were constructed; the former contained the cytochrome P-450MC (P-450MC) cDNA expression unit consisting of yeast alcohol dehydrogenase I (ADH) promoter, rat P-450MC cDNA and ADH terminator, and the Leu 2 marker gene, and the latter contained the same expression unit and the leu 2-d gene. Saccharomyces cerevisiae AH22 cells transformed with each of the recombinant plasmids were examined for plasmid copy number, P-450MC mRNA level, P-450MC content, and monooxygenase activity. The S. cerevisiae AH22/pJMC1 cells contained about 2-fold higher levels of the plasmid, P-450MC mRNA, and P-450MC than the AH22/pAMC1 cells. Monooxygenase activity towards 7-ethoxycoumarin and acetanilide of the AH22/pJMC1 cells was 1.7-fold and 1.5-fold higher than that of the AH22/pAMC1 cells, respectively, whereas the activity of the AH22/pAMC1 cells towards 7-ethoxycoumarin and acetanilide was more than 1,000-fold 10-fold higher than that of the control AH22/pAAH5 cells which contain no P-450MC cDNA, respectively. Therefore, it is likely that monooxygenase activity of the AH22 cells carrying rat P-450MC cDNA was approximately proportional to the expression level of P-450MC cDNA.     

Intergeneric yeast fusants with efficient ethanol production from cheese whey powder solution: Construction of a Kluyveromyces marxianus and Saccharomyces cerevisiae AY‐5 hybrid

Due to its high content of lactose and abundant availability, cheese whey powder (CWP) has received much attention for ethanol production in fermentation processes. However, lactose‐fermenting yeast strains including Kluyveromyces marxianus can only produce alcohol at a relatively low level, while the most commonly used distiller yeast strain Saccharomyces cerevisiae cannot ferment lactose since it lacks both β‐galactosidase and the lactose permease system. To combine the unique aspects of these two yeast strains, hybrids of K. marxianus TY‐22 and S. cerevisiae AY‐5 were constructed by protoplast fusion. The fusants were screened and characterized by DNA content, β‐galactosidase activity, ethanol tolerance, and ethanol productivity. Among the genetically stable fusants, the DNA content of strain R‐1 was 6.94%, close to the sum of the DNA contents of TY‐22 (3.99%) and AY‐5 (3.51%). The results obtained by random‐amplified polymorphic DNA analysis suggested that R‐1 was a fusant between AY‐5 and TY‐22. During the fermentation process with CWP, the hybrid strain R‐1 produced 3.8% v/v ethanol in 72 h, while the parental strain TY‐22 only produced 3.1% v/v ethanol in 84 h under the same conditions.     

采用酵母双杂交技术研究OsRUS1与OsRUS2．1之间的相互作用

为了研究OsRUSl（ROOTUV-BSENSITIVE1）与OsRUS2．1（ROOTUv-BSENSITWE2．1）之间是否具有相互作用以及通过何种结构域相互作用,采用酵母双杂交技术开展了如下工作。根据对OsRUSI与OsRUS2．J的DUF647结构域分布的分析,分别采用分子克隆技术将OsRUSl的4个不同片段[OsRUSI（1-1782）、OsRUSI（1-504）、OsRUSl（510-1282）和OsRUSI（1188～1782）]克隆到诱饵载体pGBKT7上,并将OsRUS2．J的4个不同片段[OsRUS2．J（1-1317）、OsRUS2．J（1-138）、OsRUS2．Jf139—879）和OsRUS2．J（880～1317）]克隆到猎物载体pGADT7上,酶切和测序结果表明诱饵和猎物载体构建成功,读码框正确。将所构建的4个伪R己岱J诱饵载体和4个OsRUS2．J猎物载体质粒依次转化酵母AHl09,研究转化AHl09菌落在营养缺陷型培养液SD-Trp—DO或SD-Leu-DO上的生长情况,以及对报告基因4DE、HIS、MELl和LacZ的激活情况,表明它们均没有对酵母菌株AH109产生毒性和自激活活性。再将4个OsRUSl诱饵载体和4个OsRUS2．肠者物载体的16种组合分别共转化酵母AH109,共转化菌株能在二缺营养缺陷板SD-Trp-Leu-DO上生长良好,但不能在四缺营养缺陷板SD—Trp-Leu—Ade-His-D0上生长,也不能激活MEL1和LacZ报告基因。这些结果表明OsRUSI与OsRUS2．1之间没有直接的相互作用。     

CYP78A1 preferentially expressed in developing inflorescences of Zea mays encoded a cytochrome P450-dependent lauric acid 12-monooxygenase

Cytochrome P450 (P450 or CYP) monooxygenases play an important role in the oxidation of a number of lipophilic substrates including secondary metabolites in higher plants. Larkin reported that CYP78A1 was preferentially expressed in developing inflorescences of Zea mays (Larkin, Plant Mol. Biol. 25: 343-353, 1994). However, the enzymatic function of CYP78A1 hasn't been clarified yet. To characterized the enzymatic activity of CYP78A1, in this study, CYP78A1 cDNA and tobacco or yeast NADPH-cytochrome P450 oxidoreductase (P450 reductase) was expressed in the yeast Saccharomyces cerevisiae AH22 cells under the control of alcohol dehydrogenase promoter I and terminator. The reduced CO-difference spectrum of a microsomal fraction prepared from the transformed yeast cells expressing CYP78A1 and yeast P450 reductase showed a peak at 449 nm. Based on the spectrum, the content of a P450 molecule was estimated to be 45 pmol P450 equivalent/ mg of protein in the microsomal fraction. The recombinant yeast microsomes containing CYP78A1 and yeast P450 reductase were found to catalyze 12-monooxygenation of lauric acid. Based on these results, CYP78A1 preferentially expressed in developing inflorescences of Zea mays appeared to have participated in the monooxygenation of fatty acids.