Post-translational processing of Drosophila nucleoside diphosphate kinase

Nucleoside diphosphate kinase (NDPK) was purified from Drosophila melanogaster by a combination of anion-exchange, hydroxyapatite, and reversed-phase chromatography. The identity of the purified enzyme was confirmed by sequencing internal peptides (the N-terminus appeared to be blocked). Post-translational modifications were investigated by using protein chemical and mass spectrometric methods. Analysis by nanoelectrospray ionization-mass spectrometry revealed that the mass of the enzyme was considerably smaller than that predicted from its amino acid sequence. Although its open-reading frame predicts a 153-residue polypeptide, the mature enzyme was found to comprise 152 amino acids, being modified by proteolytic removal of the initiator Met and N-acetylation of Ala2. This explains why the observed pI of the Drosophila enzyme is more acidic than that predicted from its amino acid sequence. No additional post-translational modifications such as glycosylation or O-phosphorylation, which have been identified on homologous NDPKs from other organisms, were detected on the Drosophila enzyme.     

Proteomics in Drosophila melanogaster: first 2D database of larval hemolymph proteins

A proteomic approach was used for the identification of larval hemolymph proteins of Drosophila melanogaster. We report the initial establishment of a two-dimensional gel electrophoresis reference map for hemolymph proteins of third instar larvae of D. melanogaster. We used immobilized pH gradients of pH 4-7 (linear) and a 12-14% linear gradient polyacrylamide gel. The protein spots were silver-stained and analyzed by nanoLC-Q-Tof MS/MS (on-line nanoscale liquid chromatography quadrupole time of flight tandem mass spectrometry) or by Matrix assisted laser desorption time of flight MS (MALDI-TOF MS). Querying the SWISSPROT database with the mass spectrometric data yielded the identity of the proteins in the spots. The presented proteome map lists those protein spots identified to date. This map will be updated continuously and will serve as a reference database for investigators, studying changes at the protein level in different physiological conditions.     

Carbonylation of mitochondrial proteins in Drosophila melanogaster during aging

Age-related changes in carbonylation of mitochondrial proteins were determined in mitochondria from the flight muscles of Drosophila melanogaster. Reactivity with antibodies against (i) adducts of dinitrophenyl hydrazone (DNP), commonly assumed to react broadly with derivatized carbonyl groups, (ii) malondialdehyde (MDA), or (iii) hydroxynonenal (HNE), was compared at five different ages of flies. MDA and HNE are carbonyl-containing products of lipid peroxidation, which can form covalent adducts with proteins. Specific objectives were to address the following inter-related issues: (1) what are the sources of adducts involved in protein carbonylation in mitochondria during aging; (2) is carbonylation by different adducts detectable solely by the DNP antibodies, as assumed widely; (3) can the adducts formed by lipid peroxidation products in vivo, be used as markers for monitoring age-associated changes in oxidative damage to proteins. The total amounts of immunoreactive proteins, detected by all three antibodies, were found to increase with age; however, the immunodensity of individual reactive bands and the magnitude of the increases were variable, and unrelated to the relative abundance of a protein. While some protein bands were strongly immunopositive for all three antibodies, others were quite selective. The amounts of high molecular weight cross-linked proteins (>200kDa) increased with age. In general, the anti-HNE antibody reacted with more protein bands compared to the anti-MDA or -DNP antibody. The results suggest that sources of the carbonyl-containing protein adducts vary and no single antibody reacts with all of them. Overall, the results indicate that HNE shows robust age-associated increases in adductation with mitochondrial proteins, and is a good marker for monitoring protein oxidative damage during aging.     

Identification of new immune induced molecules in the haemolymph of Drosophila melanogaster by 2D-nanoLC MS/MS

Antimicrobial peptides (AMPs) play an important role in the innate immunity of insects. In Drosophila 17 additional immune induced molecules (DIMs) were found in the haemolymph of adult flies upon septic injury. Previous studies using MALDI mass spectrometry combined with Edman degradation, detected AMPs and DIMs of a predominantly large size. By means of 2D-nanoLC ESI MS/MS, 43 DIMs were identified in this study from the haemolymph of Drosophila third instar larvae 12h after challenge with a mixture of Micrococcus luteus and Escherichia coli. Most peptides were derived from known AMP or DIM precursors, but only four peptides were purified and identified before. The majority of the peptides that we detected were smaller in size. Interestingly, two previously unknown peptide precursors were found and hereby related to immune defense. These include CG7738 and CG32185. Many of the identified peptides are post-translationally modified by an N-terminal pyroglutamic acid and/or a C-terminal amide. Haemolymph of control larvae was treated in the same way and revealed only one peptide.     

Circadian regulation of egg-laying behavior in fruit flies Drosophila melanogaster

Significant progress has been made in our understanding of the neurogenetics of circadian clocks in fruit flies Drosophila melanogaster. Several pacemaker neurons and clock genes have now been identified and their roles in the cellular and molecular clockwork established. Some recent findings suggest that the basic architecture of the clock is multi-oscillatory; the clock mechanisms in the ventral lateral neurons (LN(v)s) of the fly brain govern locomotor activity and adult emergence rhythms, while the peripheral oscillators located in antennal cells regulate olfactory rhythm. Among circadian phenomena exhibited by Drosophila, the egg-laying rhythm is unique in many ways: (i) this rhythm persists under constant light (LL), while locomotor activity and adult emergence become arrhythmic, (ii) its circadian periodicity is much longer than 24h, and (iii) while egg-laying is rhythmic under constant darkness, the expression of two core clock genes period (per) and timeless (tim), is non-oscillatory in the ovaries. In this paper, we review our current knowledge of the circadian regulation of egg-laying behavior in Drosophila, and provide some possible explanations for its self-sustained nature. We conclude by discussing the existing limitations in our understanding of the regulatory mechanisms and propose few approaches to address them.     

Functional expression of recombinant tumstatin in stably transformed Drosophila melanogaster S2 cells

Recombinant tumstatin was expressed in stably transformed Drosophila melanogaster S2 cells and secreted into the medium with a molecular size of 29 kDa. Recombinant endostatin was also purified to homogeneity using a simple one-step Ni²⁺ affinity fractionation. Purified recombinant tumstatin inhibited endothelial cell proliferation in a dose-dependent manner. The concentration at half-maximum inhibition for recombinant tumstatin was approx. 0.7 g ml^–1. A maximum production of 4.6 g recombinant tumstatin (10⁷ cells)^–1 was obtained in a T-flask culture of S2 cells, 7 d after induction with 0.5 mM CuSO₄.     

Drosophila melanogaster S2 cells for expression of heterologous genes: From gene cloning to bioprocess development

In the present review we discuss strategies that have been used for heterologous gene expression in Drosophila melanogaster Schneider 2 (S2) cells using plasmid vectors. Since the growth of S2 cells is not dependent on anchorage to solid substrates, these cells can be easily cultured in suspension in large volumes. The factors that most affect the growth and gene expression of S2 cells, namely cell line, cell passage, inoculum concentration, culture medium, temperature, dissolved oxygen concentration, pH, hydrodynamic forces and toxic metabolites, are discussed by comparison with other insect and mammalian cells. Gene expression, cell metabolism, culture medium formulation and parameters involved in cellular respiration are particularly emphasized. The experience of the authors with the successful expression of a biologically functional protein, the rabies virus glycoprotein (RVGP), by recombinant S2 cells is presented in the topics covered.     

Identification of methylated sequences in genomic DNA of adult Drosophila melanogaster

The genome of Drosophila melanogaster contains methylated cytosines. Recent studies indicate that DNA methylation in the fruit fly depends on one DNA methyltransferase, dDNMT2. No obvious phenotype is associated with the downregulation of this DNA methyltransferase. Thus, identifying the target sequences methylated by dDNMT2 may constitute the first step towards understanding the biological functions of this enzyme. We used anti-5-methylcytosine antibodies as affinity column to identify the methylated sequences in the genome of adult flies. Our analysis demonstrates that components of retrotransposons and repetitive DNA sequences are putative substrates for dDNMT2. The methylation status of DNA encoding Gag, a protein involved in delivering the transposition template to its DNA target, was confirmed by sodium bisulfite sequencing.     

Lack of correlation between body mass and metabolic rate in Drosophila melanogaster

We examined the association between body mass and metabolic rate in Drosophila melanogaster under a variety of conditions. These included comparisons of body mass and metabolic rate in flies from different laboratory lines measured at different ages, over different metabolic sampling periods, and comparisons using wet versus dry mass data. In addition, the relationship between body mass and metabolic rate was determined for flies recently collected from wild populations. In no case was there a significant correlation between body mass and metabolic rate. These results indicate that care must be taken when attempting to account for the effects of body mass on metabolic rate. Expressing such data in mass-specific units may be an inappropriate method of attempting to control for the effects of differences in body mass.     

Wolbachia effects in Drosophila melanogaster: in search of fitness benefits

Insect endosymbionts often influence host nutrition but these effects have not been comprehensively investigated in Wolbachia endosymbionts that are widespread in insects. Using strains of Drosophila melanogaster with the wMel Wolbachia infection, we showed that Wolbachia did not influence adult starvation resistance. Wolbachia also had no effect on larval development time or the size of emerging adults from a low nutrition medium. While Wolbachia may influence the expression of heat shock proteins, we found that there was no effect on adult heat resistance when tested in terms of survival or virility following heat stress. The absence of nutrition or stress effects suggests that other processes maintain wMel frequencies in natural populations of Drosophila melanogaster.     

基于RNA-Seq数据识别果蝇剪接位点和可变剪接事件

完整基因结构的预测是当前生命科学研究的一个重要基础课题,其中一个关键环节是剪接位点和各种可变剪接事件的精确识别.基于转录组测序（RNA-seq）数据,识别剪接位点和可变剪接事件是近几年随着新一代测序技术发展起来的新技术策略和方法.本工作基于黑腹果蝇睾丸RNA-seq数据,使用TopHat软件成功识别出39718个果蝇剪接位点,其中有10584个新剪接位点.同时,基于剪接位点的不同组合,针对各类型可变剪接特征开发出计算识别算法,成功识别了8477个可变剪接事件（其中新识别的可变剪接事件3922个）,包括可变供体位点、可变受体位点、内含子保留和外显子缺失4种类型.RT-PCR实验验证了2个果蝇基因上新识别的可变剪接事件,发现了全新的剪接异构体.进一步表明,RNA-seq数据可有效应用于识别剪接位点和可变剪接事件,为深入揭示剪接机制及可变剪接生物学功能提供新思路和新手段.     

Stimulation of cyclic AMP production by the Caenorhabditis elegans muscarinic acetylcholine receptor GAR-3 in Chinese hamster ovary cells

Among the three G-protein-linked acetylcholine receptors (GARs) in Caenorhabditis elegans (C. elegans), GAR-3 is structurally and pharmacologically most similar to mammalian muscarinic acetylcholine receptors (mAChRs). Using Chinese hamster ovary (CHO) cells stably expressing GAR-3b, the major alternatively spliced isoform of GAR-3, we observed that carbachol stimulated cyclic AMP (cAMP) production in a dose- and time-dependent manner. The stimulating effect of carbachol was abolished by atropine, a muscarinic antagonist, indicating that the cAMP production is specifically mediated by GAR-3b. When the cells were treated with BAPTA-AM and EGTA, which reduce the cytosolic Ca(2+) level, carbachol-stimulated cAMP accumulation was inhibited by approximately 56%. Inhibition of protein kinase C (PKC) by chronic treatment with phorbol 12-myristate 13-acetate (PMA) or by GF109203X decreased carbachol-stimulated cAMP production by as much as 68%. It thus appears that Ca(2+) and PKC are critically involved in GAR-3b-mediated cAMP formation. We also observed that carbachol-stimulated cAMP production was further enhanced by pertussis toxin (PTX) treatment. This observation indicates that GAR-3b couples to a PTX-sensitive G protein, presumably Gi, to attenuate the cAMP accumulation. Taken together, our data show that GAR-3b stimulates cAMP production in CHO cells and suggest that GAR-3b couples to both stimulatory and inhibitory pathways to modulate the intracellular cAMP level.     

Physiological role of phosphorylation of the cyclic AMP response element binding protein in rat cardiac nuclei

We determine whether the cyclic AMP signal transduction pathway affects phosphorylation of cyclic AMP response element binding protein and increases muscle gene expression in the heart. Elevation of cyclic AMP results in phosphorylation of the binding protein which is detected using an antibody specific for the phosphorylated, but not the unphosphorylated, form. The protein is present, but not phosphorylated, within the nuclei of myocytes in intact neonatal rat hearts and in high-density cultures. It is not expressed in low-density cultures. Increasing the amount of phosphorylated cyclic AMP with either isoproterenol or forskolin also increases the frequency and force of the beating. The phosphorylated form of the response element binding protein is visible in the nuclei by 10 min and persists for 2 h of drug treatment. A 1.5-fold increase in skeletal α-actin and α-myosin gene expression is detected after 48 h of isoproterenol treatment. However, blockage of beating with a calcium channel blocker (verapamil) in the presence of cyclic AMP results in a similar increased gene expression. This suggests that muscle gene expression can be regulated directly by the cyclic AMP pathway, probably via phosphorylation of the cyclic AMP response element binding protein but independent of contractile activity. Received: 1 December 1995 / Accepted: 2 May 1996     

Assembly of homotrimeric type XXI minicollagen by coexpression of prolyl 4-hydroxylase in stably transfected Drosophila melanogaster S2 cells

We established stably transfected insect cell lines containing cDNAs encoding the alpha and beta subunits of human prolyl 4-hydroxylase in both Trichoplusia ni and Drosophila melanogaster S2 cells. The expression level and enzymatic activity of recombinant prolyl 4-hydroxylase produced in the Drosophila expression system were significantly higher than those produced in the T. ni system. We further characterized the involvement of prolyl 4-hydroxylase in the assembly of the three alpha chains to form trimeric type XXI minicollagen, which comprises the intact C-terminal non-collagenous (NC1) and collagenous domain (COL1), in the Drosophila system. When minicollagen XXI was stably expressed in Drosophila S2 cells alone, negligible amounts of interchain disulfide-bonded trimers were detected in the culture media. However, minicollagen XXI was secreted as disulfide-bonded homotrimers by coexpression with prolyl 4-hydroxylase in the stably transfected Drosophila S2 cells. Minicollagen XXI coexpressed with prolyl 4-hydroxylase contained sufficient amounts of hydroxyproline to form thermal stable pepsin-resistant triple helices consisting of both interchain and non-interchain disulfide-bonded trimers. These results demonstrate that a sufficient amount of active prolyl 4-hydroxylase is required for the assembly of type XXI collagen triple helices in Drosophila cells and the trimeric assembly is governed by the C-terminal collagenous domain.