Down‐regulation of a chitin synthase a gene by RNA interference enhances pathogenicity of Beauveria bassiana ANU1 against Spodoptera exigua (HÜBNER)

Chitin synthase (CHS) is an important enzymatic component, which is required for chitin formation in the cuticles and cuticular linings of other tissues in insects. CHSs have been divided into two classes, classes A and B, based on their amino acid sequence similarities and functions. Class A CHS (CHS‐A) is specifically expressed in the epidermis and related ectodermal cells such as tracheal cells, while class B CHS (CHS‐B) is expressed in gut epithelial cells that produce peritrophic matrices. In this study, we cloned the CHS‐A gene from the beet armyworm, Spodoptera exigua (SeCHS‐A). The SeCHS‐A contains an open reading frame of 4,698 nucleotides, encoding a protein of 1,565 amino acids with a predicted molecular mass of approximately 177.8 kDa. The SeCHS‐A mRNA was expressed in all developmental stages and specifically in the epidermis and tracheae tissue by quantitative real‐time‐PCR analysis. Expression of SeCHS‐A gene was suppressed by feeding double‐stranded RNA (dsCHS‐A, 400 ng/larva) in the third instar larvae of S. exigua. Suppression of the SeCHS‐A gene expression significantly increased 35% of mortality on pupation of S. exigua. Also, the third instar larvae fed with dsCHS‐A significantly increased susceptibility to entomopathogenic fungi, Beauveria bassiana ANU1 at 3 days after treatment. These results suggest that the SeCHS‐A gene plays an important role in development of S. exigua and RNA interference may apply to effective pest control with B. bassiana.     

Dynamic methylation pattern of the methyltransferase1o (Dnmt1o) 5′‐flanking region during mouse oogenesis and spermatogenesis

DNA methyltransferase1o (Dnmt1o), which is specific to oocyte and preimplantation embryo, plays a role in maintaining DNA methylation in mammalian cells. Here, we investigated the methylation status of CpGs sites in the Dnmt1o 5′‐flanking region in germ cells at different stages of oogenesis or spermatogenesis. The methylation levels of the CpG sites at the 5′‐flanking regions were hypermethylated in growing oocytes of all follicular stages, while the oocytes in meiotic metaphase II (MII) were demethylated. The methylation pattern within the CpGs sites in the 5′‐flanking region, however, was dramatically changed during spermatogenesis. We observed that there was significant non‐CpG methylation both in MII oocytes and spermatocytes. Although a low methylation level in non‐CpG sites was observed in primary and secondary oocytes, the CpA site of position 25 and CpT site of position 29 within the no‐CpG region in the 5′‐flanking region of Dnmt1o was highly methylated in MII oocytes. During spermatogenesis, the low degree of methylation at CpG sites in spermatocytes increased to a higher degree in sperm, while the high ratio of methylation in non‐CpG sites in spermatocytes decreased. Together, germ cells showed inverted methylation patterns between CpG and non‐CpG sites in the Dnmt1o 5′‐upstream region, and the methylation pattern during oogenesis did not drastically change, remaining generally hypomethylated at the MII stage. Mol. Reprod. Dev. 80: 212–222, 2013. © 2013 Wiley Periodicals, Inc.     

Cells expressing Desiccate are essential for morphogenesis of labial sensilla in Drosophila melanogaster adults

We recently discovered a new gene, Desiccate (Desi), that is expressed in the epidermis and protects larvae from desiccation stress in Drosophila melanogaster. In the present study, we found that taste organs express more Desi than the epidermis both in larvae and adults. Green fluorescent protein (GFP) expression in larvae under the direction of a Desi promoter‐Gal4 line containing the 1,010‐bp 5′ flanking region of Desi produced no signal in the epidermis but strong signals in cells of the larval gustatory sense organs, indicating that this driver works specifically in the gustatory organs. In adults, GFP expression was also observed in basal cells of sensilla on labella, tarsi and wings. More precise morphological analysis of GFP expression located its expression in the outer accessory cells rather than neurons of the labial sensilla. Although Desi knockdown or induction of cell death in Desi‐expressing cells did not change the morphological or physiological characters of the larvae, larvae lacking Desi‐expressing cells failed to metamorphose normally, and all of them died inside puparia. Dying pharate adults were found to lack all labial sensilla. The proneural genes Achaete and Scute, which are involved in the development of the adult central and peripheral nervous system, were normally expressed in the pupae lacking Desi‐expressing cells. These results suggested that the lack of Desi‐expressing cells makes it impossible to produce outer accessory cells for development of the sensilla, thereby signifying that cells expressing Desi are essential for normal morphogenesis of the labial sensilla in Drosophila adults.     

甜菜夜蛾几丁质合成酶基因A和B启动子的克隆

几丁质不仅是昆虫的表皮和围食膜的主要成分,也是一个非常关键的害虫控制靶标,主要通过几丁质合成酶（chitin synthase,CHS）基因合成。本文在克隆甜菜夜蛾Spodoptera exigua的两个几丁质合成酶基因（SeCHSA和SeCHSB）cDNA和基因组序列的基础上,从基因的5′末端设计特异性引物和构建特定的基因组文库, 采用PCR的方法获得了5′端侧翼序列。通过5′RACE的方法确定SeCHSA和SeCHSB基因的转录起始位点后,获到了启动子序列。这为研究昆虫几丁质合成和转录调控奠定了基础。     

Hormonal and developmental specificities of transcription lie within a 1.5 kb region 5' to the ecdysone inducible Drosophila P1 gene

P-element-mediated transformation was used to investigate 5' cis-acting regulatory sequences flanking the P1 gene of Drosophila melanogaster, which is selectively expressed in the fat body of late third instar larvae under the positive control of ecdysone. A hybrid gene was constructed by fusing a 1.5 kb DNA fragment directly adjacent to and including the first 25 transcribed bases of the P1 gene to the Escherichia coli xanthine guanine phosphoribosyltransferase (Ecogpt) gene itself linked at its 3' end to the SV40 t antigen splicing and polyadenylation sequences. Five transformed lines of D. melanogaster containing only one copy of the hybrid gene were established. In each of these lines the gpt sequence is transcribed with the same spatial, temporal and hormonal specificities as those of the P1 gene. This provides evidence that control elements essential for the ecdysone and developmentally regulated expression of P1 are located within a 1.5 kb region 5' to this gene.     

Juvenile hormone modulates 20-hydroxyecdysone-inducible ecdysone receptor and ultraspiracle gene expression in the tobacco hornworm, Manduca sexta

 Insect molting and metamorphosis are orchestrated by ecdysteroids with juvenile hormone (JH) preventing the actions of ecdysteroids necessary for metamorphosis. During the molt and metamorphosis of the dorsal abdominal epidermis of the tobacco hornworm, Manduca sexta, the isoforms involved in the ecdysone receptor (EcR)/Ultraspiracle (USP) complex change with the most dramatic switch being the loss of USP-1 and the appearance of USP-2 during the larval and pupal molts. We show here that this switch in USP isoforms is mediated by high 20-hydroxyecdysone (20E) and that the presence of JH is necessary for the down-regulation of USP-1 mRNA. The decrease of USP-1 mRNA in day 2 fourth instar larval epidermis in vitro required exposure to a high concentration (10^–5 M) of 20E equivalent to the peak ecdysteroid concentration in vivo, whereas the increase of USP-2 mRNA occurred at lower concentrations (effective concentrations, EC₅₀=6.3×10^–7 M). During the pupal molt of allatectomized larvae which lack JH, USP-2 mRNA increased normally with the increasing ecdysteroid titer, whereas USP-1 mRNA remained high until pupation. When day 2 fifth instar larval epidermis was exposed to 500 ng/ml 20E in the absence of JH to cause pupal commitment of the cells by 24 h, USP-1 RNA remained at its high preculture level for 12 h, then increased two- to threefold by 24 h. The increase was prevented by the presence of 1 μg/ml JH I which also prevents the pupal commitment of the cells. By contrast, USP-2 mRNA increased steadily with the same EC₅₀ as in fourth stage epidermis, irrespective of the presence or absence of JH. Under the same conditions, mRNAs for both EcR-B1 and EcR-A isoforms were up-regulated by 20E, each in its own time-dependent manner, similar to that seen in vivo. These initial mRNA increases were unaffected by the presence of JH I, but those seen after 12 h exposure to 20E were prevented by JH, indicating a difference in response between larvally and pupally committed cells. The presence of JH which maintained larval commitment of the cells also prolonged the half-life of the EcR proteins in these cells. These results indicate that both EcR and USP RNAs are regulated by 20E and can be modulated by JH in a complex manner with only that of USP-2 apparently unaffected. Received: 16 July 1998 / Accepted: 5 August 1998     

Correlations between juvenile hormone esterase activity,ecdysone titre and cellular reprogramming in Galleria mellonella

Juvenile hormone esterase (JHE) activity, ecdysone titre, and developmental competence of the epidermis were determined in last instar larvae and pupae of Galleria mellonella. Haemolymph JHE activity reaches a peak before increases are observed in ecdysone titre both during larval-pupal and pupal-adult metamorphosis. JHE activity is low during the penultimate larval instar although general esterase activity is relatively high. In last instar larvae two ecdysone peaks are noted after the increase in JHE activity. Furthermore, epidermal cell reprogramming occurs just after the increase in haemolymph JHE activity and possibly before the first increase in ecdysone titre. This was tested by injection of high doses of β-ecdysone into last instar larvae of different ages resulting in rapid cuticle deposition. Reprogramming occurred if the resulting cuticle was of the pupal type. These correlative observations may increase our understanding of the relative importance of an ecdysone surge in the absence of JH in reprogramming of the insect epidermis.     

甘蔗 UGPase 5’侧翼序列克隆及缺失表达分析简

以甘蔗(FN95;-1702)为材料,通过接头连接PCR方法克隆该基因不同长度5′侧翼序列。将不同长度的5′侧翼序列连同UGPase基因的外显子片段定向插入到GUS基因上游,在保证其后GUS编码框不发生偏移的情况下,插入的UGPase外显子融合GUS表达成为新的报告基因。根据此策略,构建了一系列表达结构为5′ Flanking Sequence-UGPase Exon-GUS-Nos polyA的5′侧翼序列缺失表达载体,进行启动子活性分析。注射法转染烟草叶片组织检测GUS瞬时表达,分析结果表明,所克隆到的UGPase基因5′端侧翼序列不具有启动子活性。