Molecular cloning and expression analysis of a cytochrome P450 gene in tomato

A full-length cytochrome P450 cDNA, CYP71A2, was cloned from tomato (Lycopersicon esculentum Mill.) by RT-PCR and RACE. CYP71A2 (GenBank accession no. GQ370622) encoded a single polypeptide of 495 amino acid residues and shared 46–68% of identity with CYP71A1 which associated with avocado fruit ripening. The polypeptide, which held the conserved domains in all P450s, was classified as CYP71. CYP71A2-GFP fusion protein localised in the endoplasmic reticulum. The expression of CYP71A2 was detected in all the tissues (root, leaf, stem, bud, flower, immature green fruit, mature green fruit, breaker fruit, ripe fruit); however, the CYP71A2 expression was utmost in immature green fruit. During development of fruit, the expression of CYP71A2 reduced rapidly at mature green stage, then gradually increased at breaker and ripening stages. CYP71A2 was regulated by wounding, methyl jasmonate and ethylene. Promoter analysis indicated that CYP71A2 regulatory region had all the specific responding elements to these stresses. This suggested that the role of CYP71A2 is pleiotropic in tomato development and its adaptability to the environment.     

Improved cloning and expression of cytochrome P450s and cytochrome P450 reductase in yeast

Combination of the pYeDP60 yeast expression system with a modified version of the improved uracil-excision (USER) cloning technique provides a new powerful tool for high-throughput expression of eukaryotic cytochrome P450s. The vector presented is designed to obtain an optimal 5' untranslated sequence region for yeast (Kozak consensus sequence), and has been tested to produce active P450s and NADPH-cytochrome P450 oxidoreductase (CPR) after 5' end silent codon optimization of the cDNA sequences. Expression of two plant cytochrome P450s, Sorghum bicolor CYP79A1 and CYP71E1, and S. bicolor CPR2 using the modified pYeDP60 vector in all three cases produced high amounts of active protein. High-throughput functional expression of cytochrome P450s have long been a troublesome task due to the workload involved in cloning of each individual P450 into a suitable expression vector. The redesigned yeast P450 expression vector (pYeDP60u) offers major improvements in cloning efficiency, speed, fidelity, and simplicity. The modified version of the USER cloning system provides great potential for further development of other yeast vectors, transforming these into powerful high-throughput expression vectors.     

Molecular cloning and functional analysis of cytochrome P450 1A2 from Japanese monkey liver: comparison with marmoset cytochrome P450 1A2

A cDNA encoding a novel cytochrome P450 1A2 (CYP1A2) was cloned from the liver of an adult female Japanese monkey. The CYP1A2 protein was expressed in yeast cells and its enzymatic properties were compared with those of marmoset CYP1A2 using ethoxyresorufin (ER) and phenacetin (PN) as substrates. The nucleotide sequence of Japanese monkey CYP1A2 revealed 94.7, 99.5 and 93.5% identities to those of human, cynomolgus monkey and marmoset monkey CYP1A2, respectively. Multiple amino acid sequence alignment of Japanese monkey CYP1A2 with CYP1A2 of humans, cynomolgus monkeys and marmosets showed that Japanese monkey CYP1A2 had 92.4, 99.0 and 91.9% identities to the human, cynomolgus monkey and marmoset enzymes, respectively. Kinetic studies demonstrated that the enzymatic properties as ER and PN O-deethylases were considerably different between the Japanese monkey and the marmoset CYP1A2. Furthermore, both of these reactions in liver microsomal fractions from the Japanese monkey and marmoset showed biphasic kinetics. On the basis of the kinetic parameters, it is suggested that Japanese monkey CYP1A2 is a high-K(m) enzyme in both ER and PN O-deethylations, whereas marmoset CYP1A2 is a high-K(m) and low-K(m) enzyme in ER and PN O-deethylations, respectively. alpha-Naphthoflavone, an inhibitor of human CYP1A1 and CYP1A2, did not completely inhibit the liver microsomal oxidations of ER and PN even at the highest concentration (50muM), supporting the notion that CYP1A2 enzymes are not the sole ER or PN O-deethylase in Japanese monkey and marmoset liver microsomes. Inhibitory effects of furafylline, an inhibitor of human CYP1A2, on ER O-deethylation by recombinant CYP1A2 enzymes were much lower than those of alpha-naphthoflavone, but marmoset CYP1A2 was more sensitive to furafylline than Japanese monkey CYP1A2. These results indicate that the properties of Japanese monkey CYP1A2 are considerably different from those of marmoset CYP1A2.     

Molecular identity and gene expression of aldosterone synthase cytochrome P450

11Beta-hydroxylase (CYP11B1) of bovine adrenal cortex produced corticosterone as well as aldosterone from 11-deoxycorticosterone in the presence of the mitochondrial P450 electron transport system. CYP11B1s of pig, sheep, and bullfrog, when expressed in COS-7 cells, also performed corticosterone and aldosterone production. Since these CYP11B1s are present in the zonae fasciculata and reticularis as well as in the zona glomerulosa, the zonal differentiation of steroid production may occur by the action of still-unidentified factor(s) on the enzyme-catalyzed successive oxygenations at C11- and C18-positions of steroid. In contrast, two cDNAs, one encoding 11beta-hydroxylase and the other encoding aldosterone synthase (CYP11B2), were isolated from rat, mouse, hamster, guinea pig, and human adrenals. The expression of CYP11B1 gene was regulated by cyclic AMP (cAMP)-dependent signaling, whereas that of CYP11B2 gene by calcium ion-signaling as well as cAMP-signaling. Salt-inducible protein kinase, a cAMP-induced novel protein kinase, was one of the regulators of CYP11B2 gene expression.     

Molecular cloning and characterization of a cytochrome P450 taxoid 2alpha-hydroxylase involved in Taxol biosynthesis

The Taxol biosynthetic pathway, arising from the primary isoprenoid precursors isopentenyl diphosphate and dimethylallyl diphosphate in yew (Taxus), consists of approximately twenty steps, at least nine of which are thought to be cytochrome P450-mediated oxygenations. Several oxygenases involved in the early hydroxylation steps of the pathway have been identified and the corresponding genes have been cloned; however, defining the enzymes and their genes responsible for oxygenations in the central portion of the pathway is more difficult because neither the exact sequence of reactions nor the relevant intermediates are known. A surrogate substrate, (+)-taxusin (taxa-4(20),11(12)-dien-5alpha,9alpha,10beta,13alpha-tetraol tetraacetate), that was previously employed in the isolation of a taxoid 7beta-hydroxylase, was used here to functionally screen a family of cytochrome P450 oxygenases originating from a Taxus cell EST library. This in vivo screen in yeast led to the identification of a 1488bp cDNA clone (encoding a 495 residue protein) that was capable of producing 2alpha-hydroxytaxusin from taxusin with a K(m) value of 10.5 +/- 2.7 microM and k(cat) of about 0.05 s(-1) for the surrogate substrate. This structurally typical cytochrome P450 resembles most closely the previously isolated taxoid 7beta-hydroxylase, which also uses taxusin as a substrate, and both 2alpha- and 7beta-hydroxylases are capable of the reciprocal conversion of their respective pentaol tetraacetate products to the common hexaol tetraacetate. This C2-hydroxylase would appear to mediate the mid-pathway functionalization of the C2-position of the taxane core that ultimately bears a benzoyl group as an important Taxol pharmacophore. Overexpression of this cytochrome P450 taxoid 2alpha-hydroxylase in Taxus cells may improve Taxol yields and could prove useful in the production of other 2alpha-hydroxy taxoids as starting materials for subsequent acylation at this position.     

Molecular cloning and expression of CYP6B8: a xanthotoxin-inducible cytochrome P450 cDNA from Helicoverpa zea

Xanthotoxin, a plant allelochemical, induces alpha-cypermethrin insecticide tolerance in Helicoverpa zea (corn earworm); inhibition of tolerance by piperonyl butoxide implicates cytochrome P450 monooxygenases (P450s) in the detoxification of this insecticide. To characterize the xanthotoxin-inducible P450 that might mediate alpha-cypermethrin tolerance in this species, a cDNA library prepared from xanthotoxin-induced H. zea fifth instar larvae was screened with cDNAs encoding furanocoumarin-metabolizing P450s from Papilio polyxenes (CYP6B1v2) and P. glaucus (CYP6B4v2) as well as a sequence-related P450 from Helicoverpa armigera (CYP6B2). One full-length cDNA isolated in this screening shares 51-99% amino acid identity with the CYP6B subfamily of P450s isolated from Papilio and Helicoverpa species and, thus, has been designated CYP6B8. All of these CYP6B subfamily members share a number of highly conserved domains, including substrate recognition site 1 (SRS 1) that is critical for xanthotoxin metabolism by CYP6B1v2 from Papilio polyxenes and coumarin metabolism by CYP2a5 from Mus musculus. Northern and RT-PCR analyses indicate that CYP6B8 expression is strongly induced by xanthotoxin and phenobarbital and negligibly induced by alpha-cypermethrin.     

Molecular cloning, expression and functional characterization of the cytochrome P450 2A6 gene in pig liver

Raising intact male pigs would have a significant economic impact on the pork industry because intact males have improved feed efficiency and a greater lean yield of the carcass compared with barrows. However, the presence of skatole, a major cause of boar taint, in meat from intact male pigs could be highly objectionable to consumers. It has been shown that CYP2A6 is a key enzyme in the hepatic metabolism of skatole and that the activity of CYP2A6 is negatively correlated with skatole accumulation in fat. The aim of this study was to isolate and characterize CYP2A6 from pig liver, as well as identify genetic polymorphisms in the CYP2A6 gene, and examine the association between these polymorphisms and skatole level. We identified a single base deletion in CYP2A6, resulting in a frame shift in the coding region that produces a non-functional enzyme, which was associated with high levels of skatole in fat tissue.     

cDNA cloning and regulation of a novel rat cytochrome P450 of the 2C gene subfamily (P450IIC24)

A novel member of the cytochrome P450 2C gene subfamily was identified by screening rat prostate cDNA libraries. Two independent clones were isolated. Clone pros1 was 1031 bp long and contained a bizarre replacement in place of putative exon 1. Clone pros2 was 1755 bp long, contained a complete 3' end, and also had bizarre sequences in place of exon 1, which in this case were compatible with an unspliced intron. Northern analysis revealed mRNA expression in the liver and the kidney. Interestingly, although livers of mature rats of both sexes have comparable amounts of P4502C24 mRNA, a dramatic sex difference is seen in the kidney where only males express detectable levels of this mRNA.     

Molecular aspects of brain aromatase cytochrome P450

Aromatase cytochrome P450 (P450arom) enzyme activity catalyses the conversion of androgens to estrogens in specific brain areas. During central nervous system (CNS) development local estrogen formation influences sexual differentiation of neural structures, regulates neuroendocrine functions and sexual behavior. A proposed mechanism (and re-examination) of the sexual differentiation of the rodent brain is presented. The metabolic pathway of androgen metabolism by P450arom was characterized in the medial basal hypothalamic (MBH) tissue from male rats during various prenatal and postnatal developmental intervals. The P450arom enzyme activity was determined using a saturating concentration of [³H]testosterone as the substrate, and the rates were quantified by scintillation counting. The MBH P450arom activity was highest during prenatal development (i.e. 3–6 pmol/h/mg protein), declined to moderate levels in newborns and infantile animals (approximately 1 pmol/h/mg protein) and then continued to decline to low activity rates in adult animals (approximately 80 fmol/h/mg protein). Regulation of the P450arom gene was characterized by a series of molecular biology studies where the controlling mechanism for brain P450arom was determined in MBH and amygdaloid tissue sites. Evidence for brain P450arom-specific mRNA in perinatal rats is presented as well as comparisons with rat ovary, a rat Leydig tumor cell line (R2C) and human fetal brain P450arom. Specifically, P450arom gene expression is driven in perinatal rat brain tissue by a different promoter compared to rat ovarian tissue or a R2C cell line, whereas human fetal brain tissue utilizes an almost identical promoter segment to that observed in the rodent. These findings provide an insight into the regulation of brain P450arom gene expression and suggest that there is an additional level of control for the expression of this gene during perinatal development. However, further study is necessary to understand the molecular basis of this complex developmental pattern of brain P450arom expression.     

Characterization of the alkane-inducible cytochrome P450 (P450alk) gene from the yeast Candida tropicalis: identification of a new P450 gene family

The P450alk gene, which is inducible by the assimilation of alkane in Candida tropicalis, was sequenced and characterized. Structural features described in promoter and terminator regions of Saccharomyces yeast genes are present in the P450alk gene and some particular structures are discussed for their possible role in the inducibility of this gene. Expression of the P450alk gene was achieved in Saccharomyces cerevisiae using the yeast alcohol dehydrogenase expression system after removal of the P450alk gene flanking regions. The resultant expressed protein had a molecular mass slightly greater than that of P450alk from C. tropicalis. This alteration did not prevent the function and the localization of P450alk expressed in S. cerevisiae, as this organism showed an acquired microsome-bound activity for the terminal hydroxylation of lauric acid. The deduced P450alk amino acid sequence was compared with members of the nine known P450 gene families. These comparisons indicated that P450alk had a low relationship with these members and was therefore the first member (A1) of a new P450 gene family (LII).     

Molecular cloning and recombinant expression of cytochrome P450 CYP6B6 from Helicoverpa armigera in Escherichia coli

The cytochrome P450 s play a significant role in the detoxification of plant allelochemicals and synthetic insecticides in Lepidoptera. In the cotton bollworm Helicoverpa armigera, 2-tridecanone and quercetin can induce P450-dependent monooxygenase activity increased, to further the characterization of P450, the CYP6B6 of cotton bollworm (H. armigera) was cloned, sequenced and expressed in pMAL-p2x vector and expressed in Escherichia coli. The deduced amino acid sequences of cytochrome P450 in the midgut and fat body of H. armigera showed 98.23 and 97.84 % similarity with CYP6B6, respectively. According to nomenclature of P450 s, the P450 genes we got belong to CYP6B. Purification of recombinant protein based on the affinity of MBP for maltose was achieved by Mal-Tag magnetic beads. The purified protein was used to raise polyclonal antibody according to classical procedure. SDS–PAGE and Western blot results indicated that MBP-CYP6B6 had been successfully expressed. The ethoxycoumarin-O-deethylase activity of the purified recombinant protein was 36.5 ± 8.12 pmol of 7-hydroxycoumarin/min/mg protein, which showed the fusion MBP-CYP6B6 had the ability to o-deethylase of 7-ethoxycoumarin.     

Expression of a cytochrome P450 gene family in maize

Maize seedlings, like seedlings of many other plants, are rich in cytochrome P450 (P450) enzyme activity. Four P450 genes (CYPzm1–4), isolated from a seedling-specific cDNA library, are characterised by a transient and seedling-specific expression pattern. The maximum steady state mRNA levels are reached at 3 days in root and at 7 days in shoot tissue, respectively. All four genes belong to one gene family and are closely related to the CYP71 family of plant P450 genes, which includes the enzymes of the ripening avocado fruit (CYP71A1) and eggplant hypocotyls (CYP71A2, A3, A4). The expression of these related P450 genes in monocot and dicot plants indicates that these enzymes play a significant role in plants; however, the in vivo enzyme functions are unknown. The divergence of the four members of the maize gene family is sufficiently high to account for different substrate and/or reaction specificity. Although the general expression pattern of the four genes is identical, the maximum steady-state mRNA levels vary in different maize lines. In situ hybridisation reveals the highest mRNA levels in the coleoptile, the first developed leaflets, the ground tissue of the nodular complex, and in the cortex and pith of the region of cell division in the root. The mapping of the maize CYPzm genes shows that, as in animals, P450 genes of the same family can be clustered. The presence of the CYPzm gene cluster in maize argues for generation of distinct plant P450 gene families by gene duplication.     

Molecular cloning of a cDNA encoding a member of a novel cytochrome P450 family in the mollusc Lymnaea stagnalis.

We isolated a cDNA encoding a cytochrome P450 from the mollusc Lymnaea stagnalis. The mRNA is 2.1 nucleotides long and contains an open reading frame encoding a protein of 545 amino acids. A conserved home-binding domain, characteristic of cytochrome P450 proteins, is present in the deduced amino acid sequence. The Lymnaea cytochrome P450 protein shares less than 40% positional identity with any known member of the cytochrome P450 superfamily, and therefore, represents a separate family, which we propose to name CYP10. The CYP10 mRNA is shown to be uniquely and abundantly expressed in the female gonadotropic hormone producing dorsal bodies of L. stagnalis.     

昆虫细胞色素P450基因的克隆及其策略

本记述了目前已克隆的105个昆虫细胞色素P450基因cDNA和片段,它们分属CYP4、CYP6、CYP9、CYP12、CYP18和CYP28等6个家族：同时,综述和分析了克隆这些基因、cDNA和片段所采用的策略及其优缺点。