Phenol oxidase is a necessary enzyme for the silkworm molting which is regulated by molting hormone

Insect molting is an important developmental process of metamorphosis, which is initiated by molting hormone. The molting process includes the activation of dermal cells, epidermal cells separation, molting fluid secretion, the formation of new epidermis and old epidermis excoriation etc. Polyphenol oxidases (PPOs), dopa decarboxylase and acetyltransferase are necessary enzymes for this process. Traditionally, the phenol oxidase was considered as an enzyme for epidermal layer’s tanning and melanization. This work suggested that polyphenol oxidases are one set of the key enzymes in molting, which closely related with the role of ecdysone in regulation of molting processes. The data showed that the expression peak of phenol oxidase in silkworm is higher during molting stage, and decreases after molting. The significant increase in the ecdysone levels of haemolymph was observed in the artificially fed silkworm larvae with ecdysone hormone. Consistently, the phenol oxidase expression was significantly elevated compared to the control. PPO1 RNAi induced phenol oxidase expression obviously declined in the silkworm larvae, and caused the pupae incomplete pupation. Overall, the results described that the phenol oxidase expression is regulated by the molting hormone, and is a necessary enzyme for the silkworm molting.     

Expression and functions of dopa decarboxylase in the silkworm, Bombyx mori was regulated by molting hormone

Insect molting is an important developmental process of metamorphosis, which is initiated by molting hormone. Molting includes the activation of dermal cells, epidermal cells separation, molting fluid secretion, the formation of new epidermis and old epidermis shed and other series of continuous processes. Polyphenol oxidases, dopa decarboxylase and acetyltransferase are necessary enzymes for this process. Traditionally, the dopa decarboxylase (BmDdc) was considered as an enzyme for epidermal layer’s tanning and melanization. This work suggested that dopa decarboxylase is one set of the key enzymes in molting, which closely related with the regulation of ecdysone at the time of biological molting processes. The data showed that the expression peak of dopa decarboxylase in silkworm is higher during molting stage, and decreases after molting. The significant increase in the ecdysone levels of haemolymph was also observed in the artificially fed silkworm larvae with ecdysone hormone. Consistently, the dopa decarboxylase expression was significantly elevated compared to the control. BmDdc RNAi induced dopa decarboxylase expression obviously declined in the silkworm larvae, and caused the pupae appeared no pupation or incomplete pupation. BmDdc was mainly expressed and stored in the peripheral plasma area near the nucleus in BmN cells. In larval, BmDdc was mainly located in the brain and epidermis, which is consisted with its function in sclerotization and melanization. Overall, the results described that the dopa decarboxylase expression is regulated by the molting hormone, and is a necessary enzyme for the silkworm molting.     

Behavioral and genomic characterization of molt-sleep in the tobacco hornworm,Manduca sexta

During the transition from feeding to molting, larval insects undergo profound changes in behavior and patterns of gene expression regulated by the neuroendocrine system. For some species, a distinctive characteristic of molting larvae is presence of a quiescent state sometimes referred to as “molt-sleep”. Here, observations of 4th instar Manduca sexta larvae indicate the molting period involves a predominantly quiescent state that shares behavioral properties of adult insect sleep in that it is rapidly reversible and accompanied by a reduced responsiveness to both mildly arousing and noxious stimuli. When subjected to noxious stimuli, molting larvae exhibit locomotory and avoidance behaviors similar to those of inter-molt larvae. Although less consolidated, inter-molt quiescence shares many of the same behavioral traits with molting quiescence. However, when subjected to deprivation of quiescence, inter-molt larvae display a compensatory rebound behavior that is not detected in molting larvae. This suggests that molting quiescence is a specialized form of inactivity that affords survival advantages to molting larvae. RNA-seq analysis of molting larvae shows general reduction in expression of genes encoding GPCRs and down regulation of genes connected with cyclic nucleotide signaling. On the other hand, certain ion channel genes are up-regulated, including transient receptor potential (TRP) channels, chloride channels and a voltage-dependent calcium channel. These findings suggest patterns of gene expression consistent with elevation of quiescent state characteristic of the molt in a model holometabolous insect.     

CHITIN SYNTHASE B: A MIDGUT‐SPECIFIC GENE INDUCED BY INSECT HORMONES AND INVOLVED IN FOOD INTAKE IN Bombyx mori LARVAE

Chitin synthase (CHS) is the key regulatory enzyme in chitin synthesis and excretion in insects, and a specific target of insecticides. We cloned a CHS B gene of Bombyx mori (BmChsB) and showed it to be midgut specific, highly expressed during the feeding process in the larva. Knockdown of BmChsB expression in the third‐instar larvae increased the number of nonmolting and abnormally molting larvae. Exposure to nikkomycin Z, a CHS inhibitor, reduced the amount of chitin in the peritrophic membrane of molted larvae, whereas abnormally elevated BmChsB mRNA levels were readily detected from the end of molting and in the newly molted larvae. Exogenous 20‐hydroxyecdysone (20E) and methoprene, a juvenile hormone analogue, significantly upregulated the expression of BmChsB when the levels of endogenous molting hormone (MH) were low and the levels of endogenous juvenile hormone (JH) were high immediately after molting. When levels of endogenous MH were high and those of endogenous JH were low during the molting stage, exogenous 20E did not upregulate BmChsB expression and exogenous methoprene upregulated it negligibly. When the endogenous hormone levels were low during the mulberry‐leaf intake process, BmChsB expression was upregulated by exogenous methoprene. We conclude that the expression of BmChsB is regulated by insect hormones, and directly affects the chitin‐synthesis‐dependent form of the peritrophic membrane and protects the food intake and molting process of silkworm larvae.     

棉铃虫漆酶2基因的分子鉴定

【目的】黑化反应在昆虫表皮骨化以及免疫防御过程中起着重要作用, 酚氧化酶是黑化反应中的关键酶类, 漆酶2 (laccase2, LAC2)是酚氧化酶的一种, 在昆虫变态发育和免疫系统中起着重要的作用。本研究旨在探讨LAC2在棉铃虫Helicoverpa armigera表皮骨化中表达模式及激素调控作用。 【方法】采用PCR及RACE的方法, 从棉铃虫5龄幼虫中得到了lac2 cDNA全序列。利用荧光定量PCR、 激素处理及RNA干扰方法, 对LAC2的表达模式差异和激素调控作用进行分析。【结果】序列分析表明, lac2 cDNA全长3 221 bp, 编码框长度为2 268 bp, 编码756个氨基酸残基。发育时序表达分析发现, lac2在幼虫各龄期表达规律相似, 均在蜕皮期高水平表达, 在5龄96 h转录水平达到最高峰。组织表达结果分析, lac2基因在幼虫表皮和成虫卵巢以及触角表达量较高。激素处理实验发现, 保幼激素类似物（methoprene）对lac2基因转录有抑制作用; 蜕皮激素（20-hydroxyecdysone）则促进其表达。进一步利用RNA干扰蜕皮激素受体EcR （ecdysone receptor）和USP （ultraspiracle isoform）基因发现, 干扰后蜕皮激素受体的表达明显受到抑制, 同时lac2基因的表达也显著受到抑制, 表明蜕皮激素调控lac2基因转录。【结论】这些结果为进一步研究漆酶在昆虫表皮的骨化以及免疫防御等方面不同的生理功能提供理论依据。     

Cloning, expression, and localization of a molt-related beta-N-acetylglucosaminidase in the spruce budworm, Choristoneura fumiferana

A beta-N-acetylglucosaminidase cDNA (CfGlcNAcase) was cloned from the spruce budworm, Choristoneura fumiferana. Western blotting analysis of developmental CfGlcNAcase expression revealed high levels of expression of the gene on the last day of the 5th instar larvae and the first day in the 6th instar larvae, followed by a decrease to background levels during the intermolt of the 6th instar. CfGlcNAcase was detected again from the last day of the 6th instar to day 2 of pupal stage. CfGlcNAcase expression was induced by tebufenozide at 24 h post treatment and remained at high levels until 72 h. Immunohistochemical localization analysis of CfGlcNAcase indicated that CfGlcNAcase was present in the molting fluid, epidermis, trachea, and hemolymph in prepupae during the transformation from larva to pupa. CfGlcNAcase cDNA was expressed into a recombinant protein in bacterial and baculovirus systems and the protein expressed in the baculovirus system had a higher chitinolytic activity than in the bacterial system and appeared to be secreted.     

Chitin synthase A: a novel epidermal development regulation gene in the larvae of Bombyx mori

Chitin synthase is the key regulatory enzyme for chitin synthesis and excretion in insects, as well as a specific target of insecticides. The chitin synthase A gene (BmChsA) cloned from Bombyx mori, the model species of lepidopteran, is an epidermis-specific expressed gene during the molting stage. Knockdown BmChsA gene in 3rd instar larvae increased the number of non-molting and abnormal molting larvae. Exposure to nikkomycin Z, a chitin synthase inhibitor downregulated the expression of BmChsA and decreased the amount of epidermis chitin during the molting process. The thickness of the new epidermis and its dense structure varied greatly. The exogenous hormones significantly upregulated the expression of BmChsA with low levels of endogenous MH and high levels of endogenous JH immediately after molting. With low levels of endogenous hormones during the mulberry intake process, BmChsA was rarely upregulated by exogenous hormones. With high levels of endogenous MH and low levels of endogenous JH during the molting stage, we did not detect the upregulation of BmChsA by exogenous hormones. The expression of BmChsA was regulated by endocrine hormones, which directly affected the chitin synthesis-dependent epidermal regeneration and molting process.     

昆虫蜕皮的分子机理及应用

昆虫蜕皮是一个由PTTH启始的、激素介导的基因序列表达和相互作用的级联反应过程。阐明昆虫蜕皮的分子机理,不仅可以解释发育生物学的科学问题,为害虫控制提供新的思路,还可以从中发现新的可资生产应用的分子。作者通过蛋白质组学方法从棉铃虫Helicoverpa armigera Hubner蜕皮幼虫鉴定到30个差异表达的蛋白质。通过抑制性消减杂交技术,从棉铃虫蜕皮幼虫、变态决定幼虫和5龄取食幼虫鉴定到100个表达序列标签(EST)。证明其中的11个EST在蜕皮或变态时差异表达。通过RT-PCR方法克隆棉铃虫激素接受子3基因,研究该基因在发育中的表达模式。用该基因构建具有绿色荧光蛋白标记和多角体蛋白的基因重组病毒(AcMNPV-GFP-HHR3-Polh)。实验结果表明,AcMNPV-GFPHHR3-Polh病毒可以通过注射或口服感染棉铃虫,导致棉铃虫幼虫非正常蜕皮、生长延缓、半数存活时间下降。该研究显示昆虫蜕皮功能基因在害虫控制中有很好的应用前景。蜕皮功能基因的表达与调控、蜕皮激素介导的信号转导通路、变态过程中组织解体和重建的分子机理、激素调控基因顺序表达的分子机理、变态起始因子、JH受体等是本领域今后的主要研究方向。     

Conversion of 3-oxo steroids into ecdysteroids triggers molting and expression of 20E-inducible genes in Drosophila melanogaster

Ecdysteroids, steroid hormones in insects, coordinate major developmental transitions. During postembryonic development, ecdysone is biosynthesized from dietary cholesterol in the prothoracic gland (PG). Despite extensive studies, the initial conversion process, the so-called "Black Box", has not been characterized. A cytochrome P450 enzyme, Spookier (Spok), is speculated as a rate limiting enzyme in the Black Box during larval-pupal transitions in Drosophila melanogaster. RNAi mediated knockdown of spok expression in the PG results in arrest of molting. Because the developmental arrest can be rescued by application of an appropriate intermediate, we examined potential activities of candidate intermediates in the RNAi-treated larvae. We found that two 3-oxo steroids, cholesta-4,7-diene-3,6-dione-14α-ol (Δ(4)-diketol) and 5β [H]cholesta-7-ene-3,6-dione-14α-ol (diketol), triggered molting of the RNAi-treated larvae. We also detected an enhancement of the amounts of ecdysteroids in the RNAi-treated larvae by feeding the Δ(4)-diketol or diketol, indicating that the dietary 3-oxo steroids were incorporated and converted into ecdysteroids in vivo. Furthermore, 20-hydroxyecdysone inducible genes were induced in the RNAi-treated larvae by feeding the Δ(4)-diketol or diketol. These results indicate that Δ(4)-diketol and diketol are components of the ecdysteroid biosynthetic pathway and lie downstream of a step catalyzed by Spok.     

棉铃虫蜕皮调节转录因子在大肠杆菌中的重组表达及其包涵体纯化

蜕皮调节转录因子(hormone receptor 3,HR3)在昆虫蜕皮过程中启动蜕皮相关早期基因簇表达,并抑制蜕皮相关晚期基因簇表达,对昆虫蜕皮级联反应起着关键的调控作用。利用合成的特异性引物通过RT-PCR扩增了棉铃虫 Helicoverpa armigera 蜕皮调节转录因子(HHR3),并与pGEX-4T-1载体连接,在大肠杆菌Escherichia coli DH5α内进行扩增,经过PCR筛选获得了HHR3-pGEX-4T-1重组质粒。 用该质粒转化大肠杆菌表达菌株BL21并进行诱导表达,获得了与谷胱甘肽-S转移酶（GST）融合表达的HHR3包涵体,分子量在94 kD左右,通过无离子去垢剂CAPS（3-［cyclohexylamino］-1-propanesulfonic acid）变性、复性后获得了可溶性GST-HHR3融合蛋白,经凝血酶裂解和SDS-PAGE分离得到纯化的HHR3,经蛋白质N-端测序确认表达正确。用重组表达的HHR3免疫家兔,制备了兔抗HHR3多克隆抗体,免疫印迹检测显示该抗体对HHR3有特异性识别能力, 可以用于HHR3功能与调控等下游研究。免疫印迹检测结果还表明,HHR3在5龄向6龄蜕皮的幼虫脂肪体中高表达,在进入6龄24 h 的幼虫脂肪体中含量明显下降,在6 龄72 h 的幼虫中肠中没有检测到HHR3表达;成虫卵巢中有HHR3表达。     

棉铃虫蜕皮时期同工酶表达模式

同工酶广泛存在于不同种属生物的组织细胞中,在生物发育的不同阶段有着特定的表达模式和重要的生理功能。昆虫蜕皮是在促前胸腺激素（PTTH）、蜕皮激素和保幼激素共同控制下由一系列基因表达和调控的级联反应。阐明蜕皮发育过程中同工酶的表达模式,可以为研究蜕皮的分子机理提供新的分子靶标,为研制生长调节剂类杀虫剂提供检测的分子标记。该研究分析了棉铃虫Helicoverpa armigera蜕皮时期不同组织中过氧化物酶、乙醇脱氢酶和酯酶的表达模式,找到了3种蜕皮差异表达的过氧化物酶, 2种蜕皮或变态差异表达的乙醇脱氢酶,3种蜕皮差异表达的酯酶。生长调节剂类化学杀虫剂非甾醇类蜕皮激素竞争物RH24-85可以诱导3种酯酶表达上调,可能与蜕皮有关。这些结果为进一步研究棉铃虫蜕皮的分子机理和检测促蜕皮生长调节剂类化学杀虫剂提供了新的分子靶标。     

Changes in the expression of soluble and integral-membrane trehalases in the midgut during metamorphosis in Bombyx mori

To elucidate the relationship between soluble trehalase (Treh1) and integral-membrane trehalase (Treh2) in the Bombyx mori midgut, expression profiles for both proteins and mRNAs were examined during metamorphosis by using Western-blotting and quantitative real-time PCR analyses. Two bands of Treh2 (about 74 kDa) were detected in the midgut of 0-day-old 5th (last) instar larvae. Levels of Treh2 decreased as the developing larvae approached spinning (8 days old). In contrast, towards the onset of the spinning stage, Treh1 (68 kDa) was clearly observed, and levels increased until the middle of the pupal stage. Treh2 mRNA expression relative to Bmrp49 mRNA expression was almost constant, although fluctuations were detected. Treh1 mRNA expression relative to Bmrp49 mRNA increased sharply just after spinning. To further examine the expression mechanism of the Treh1 gene in midgut, actively feeding larvae (4 days old) were starved or ligated between the 4th and 5th segments. Injection of a molting hormone into the larval-isolated abdomen led to activation of Treh1, demonstrating that molting hormone acts on the midgut and activates this gene.     

Identification and characterization of an aromatic amino acid decarboxylase from the filarial nematode, Dirofilaria immitis

A novel secreted aromatic amino acid decarboxylase-like molecule was identified in the excretory/secretory products of L3/L4 larvae as well as in an extract of adult Dirofilaria immitis. The secretion of the enzyme was developmentally regulated. Peak enzyme activities were detected in the culture medium before and after the molting of L3 larvae in vitro. The enzyme was purified from D. immitis adult extracts and the excretory/secretory products of L3/L4 larvae using different chromatographic methods followed by isoelectric focusing and SDS-PAGE. The enzyme has a molecular mass of 48 kDa and a pI of 5.6, and shows a specific enzymatic activity towards the aromatic amino acid substrates phenylalanine, tyrosine and tryptophan. The enzyme's activity did not show an absolute requirement for exogenous pyridoxal-5-phosphate. However, addition of pyridoxal-5-phosphate at 5 microM in the reaction increased the enzyme activity greatly. The enzyme had the ability to catalyze the formation of dopamine from L-dopa. Studies on the effects of inhibitors on the enzyme activity showed that the enzyme was sensitive to Pefabloc and p-chloromercuribenzoic acid, but not to diisopropyl flurophosphate. The Km values of the enzyme for H-Phe-AMC, H-Tyr-AMC and H-Trp-AMC were calculated to be 32.1 microM, 35.1 microM and 29.1 microM, respectively.     

Entomogenous fungus Nomuraea rileyi inhibits host insect molting by C22-oxidizing inactivation of hemolymph ecdysteroids

The entomogenous fungus Nomuraea rileyi reportedly secretes a proteinaceous substance inhibiting larval molt and metamorphosis in the silkworm Bombyx mori. We studied the possibility that N. rileyi controls B. mori development by inactivating hemolymph molting hormone, ecdysteroids. Incubation of ecdysone (E) and 20-hydroxyecdysone (20E) in fungal-conditioned medium resulted in their rapid modification into products with longer retention times in reverse-phase HPLC. Each modified product from E and 20E was purified by HPLC, and identified by NMR as 22-dehydroecdysone and 22-dehydro-20-hydroxyecdysone. Some other ecdysteroids with a hydroxyl group at position C22 were also modified. Injection of the fungal-conditioned medium into Bombyx mori larvae in the mid-4th instar inhibited larval molt but induced precocious pupal metamorphosis, and its injection into 5th instar larvae just after gut purge blocked pupal metamorphosis. In hemolymph of injected larvae, E and 20E disappeared and, in turn, 22-dehydroecdysone and 22-dehydro-20-hydroxyecdysone accumulated. These results indicate that N. rileyi secretes a specific enzyme that oxidizes the hydroxyl group at position C22 of hemolymph ecdysteroids and prevents molting in B. mori larvae.     

Characterization of candidate intermediates in the Black Box of the ecdysone biosynthetic pathway in Drosophila melanogaster: Evaluation of molting activities on ecdysteroid-defective larvae

Early steps of the biosynthetic pathway of the insect steroid hormone ecdysone remains the “Black Box” wherein the characteristic ecdysteroid skeleton is built. 7-Dehydrocholesterol (7dC) is the precursor of uncharacterized intermediates in the Black Box. The oxidation step at C-3 has been hypothesized during conversion from 7dC to 3-oxo-2,22,25-trideoxyecdysone, yet 3-dehydroecdysone is undetectable in some insect species. Therefore, we first confirmed that the oxidation at C-3 occurs in the fruitfly, Drosophila melanogaster using deuterium-labeled cholesterol. We next investigated the molting activities of candidate intermediates, including oxidative products of 7dC, by feeding-rescue experiments for Drosophila larvae in which an expression level of a biosynthetic enzyme was knocked down by the RNAi technique. We found that the administration of cholesta-4,7-dien-3-one (3-oxo-Δ^4,7C) could overcome the molting arrest of ecdysteroid-defective larvae in which the expression level of neverland was reduced. However, feeding 3-oxo-Δ^4,7C to larvae in which the expression levels of shroud and Cyp6t3 were reduced inhibited molting at the first instar stage, suggesting that this steroid could be converted into an ecdysteroid-antagonist in loss of function studies of these biosynthetic enzymes. Administration of the highly conjugated cholesta-4,6,8(14)-trien-3-one, oxidized from 3-oxo-Δ^4,7C, did not trigger molting of ecdysteroid-defective larvae. These results suggest that an oxidative product derived from 7dC is converted into ecdysteroids without the formation of this stable conjugated compound. We further found that the 14α-hydroxyl moiety of Δ⁴-steroids is required to overcome the molting arrest of larvae in loss of function studies of Neverland, Shroud, CYP6T3 or Spookier, suggesting that oxidation at C-14 is indispensable for conversion of these Δ⁴-steroids into ecdysteroids via 5β-reduction.     

Fungal ecdysteroid-22-oxidase, a new tool for manipulating ecdysteroid signaling and insect development

Steroid hormones ecdysteroids regulate varieties of developmental processes in insects. Although the ecdysteroid titer can be increased experimentally with ease, its artificial reduction, although desirable, is very difficult to achieve. Here we characterized the ecdysteroid-inactivating enzyme ecdysteroid-22-oxidase (E22O) from the entomopathogenic fungus Nomuraea rileyi and used it to develop methods for reducing ecdysteroid titer and thereby controlling insect development. K(m) and K(cat) values of the purified E22O for oxidizing ecdysone were 4.4 μM and 8.4/s, respectively, indicating that E22O can inactivate ecdysone more efficiently than other ecdysteroid inactivating enzymes characterized so far. The cloned E22O cDNA encoded a FAD-dependent oxidoreductase. Injection of recombinant E22O into the silkworm Bombyx mori interfered with larval molting and metamorphosis. In the hemolymph of E22O-injected pupae, the titer of hormonally active 20-hydroxyecdysone decreased and concomitantly large amounts of inactive 22-dehydroecdysteroids accumulated. E22O injection also prevented molting of various other insects. In the larvae of the crambid moth Haritalodes basipunctalis, E22O injection induced a diapause-like developmental arrest, which, as in normal diapause, was broken by chilling. Transient expression of the E22O gene by in vivo lipofection effectively decreased the 20-hydroxyecdysone titer and blocked molting in B. mori. Transgenic expression of E22O in Drosophila melanogaster caused embryonic morphological defects, phenotypes of which were very similar to those of the ecdysteroid synthesis deficient mutants. Thus, as the first available simple but versatile tool for reducing the internal ecdysteroid titer, E22O could find use in controlling a broad range of ecdysteroid-associated developmental and physiological phenomena.     

Characteristics of two genes encoding proteins with an ADAM-type metalloprotease domain, which are induced during the molting periods in Bombyx mori

By microarray analyses, we identified two genes (BmADAMTS-1 and BmADAMTS-like) encoding a protein, which are induced during the pupal ecdysis in the wing discs of Bombyx mori; these genes are homologous to ADAMTS family members (a disintegrin and metalloproteinase domain, with thrombospondin type-1 repeats). A complete metal-binding motif of the ADAM-type metalloprotease domain (HEXXHXXGXXHD) was contained in both amino acid sequences. However, thrombospondin type 1 (TSP-1) repeats were observed only in BmADAMTS-1. The BmADAMTS-1 gene was expressed in the hemocyte and midgut of the larvae at day 2 of wandering stage (W2), and strongly induced during the pupal ecdysis in the hemolymph. The BmADAMTS-like gene was expressed in the epithelial tissues of the larvae at W2, and had expression peaks slightly later than the BmADAMTS-1 gene. Our results indicate that BmADAMTS-1 and BmADAMTS-like may cleave the extracellular matrix (ECM) in the degenerating and remodeling tissues during the molting periods.     

氯虫苯甲酰胺诱导甜菜夜蛾细胞色素P450基因上调表达

【目的】明确氯虫苯甲酰胺对甜菜夜蛾Spodoptera exigua (Hübner)细胞色素P450基因的诱导表达作用。【方法】采用O-脱乙基香豆素法研究了低剂量氯虫苯甲酰胺处理对甜菜夜蛾幼虫中肠P450s酶活性的影响,应用Real-time PCR方法测定了其对P450基因(CYP9A9, CYP4G37,CYP4S11和CYP6B)和NADPH细胞色素P450还原酶基因(HQ852049)表达的影响。【结果】氯虫苯甲酰胺对甜菜夜蛾P450酶及相关基因的诱导作用均表现出时间效应和剂量效应,。甜菜夜蛾4龄幼虫取食0.02 mg/kg氯虫苯甲酰胺饲料至5龄, 在蜕皮后6-36 h内, 其P450s酶活性增加为对照组的1.90~2.92倍, 诱导效应高于0.01 mg/kg氯虫苯甲酰胺处理组（其P450s酶活性为对照组的1.11~1.62倍）。同时, 0.02 mg/kg氯虫苯甲酰胺处理组甜菜夜蛾中肠P450基因CYP9A9, CYP4G37和CYP6B mRNA的相对表达量分别上升为对照组的1.97~3.95, 2.46~4.29及1.53~4.48倍, NADPH细胞色素P450还原酶基因 HQ852049 的相对表达量亦增加为对照的1.85~4.08倍。【结论】结果提示,氯虫苯甲酰胺可能通过诱导3种P450基因及细胞色素P450还原酶基因 HQ852049 基因mRNA的上调表达而增强了甜菜夜蛾幼虫中肠P450s酶活性。