Shanjun Chen scite author profile

By binding to sperm tails, SP prolongs the PMR. Thus, besides a carrier for genetic information, sperm is also the carrier for SP. Binding to sperm may protect the peptide from degradation by proteases in the hemolymph and, thus, prolong its half-life. Longer sperm tails may transfer more SP and thus increase the reproductive fitness of the male. We suggest that this could explain the excessive length of sperm tails in some Drosophila species.

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The hydroxyproline motif of male sex peptide elicits the innate immune response in Drosophila females

Domanitskaya

et al. 2007

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Seminal fluid elicits a variety of physiological and behavioral changes in insect females. In Drosophila melanogaster females, sex peptide (SP) is the major seminal agent eliciting oviposition and reduction of receptivity. But SP also has many other effects; for example, it stimulates food intake, egg production, ovulation, juvenile hormone production and antimicrobial peptide synthesis. Thus, SP very probably has several receptors. To identify putative targets and signaling cascades, we studied the genome-wide regulation of genes by microarray analysis of RNA isolated from females after mating with wild-type males or males lacking SP, respectively. In addition, we studied the effects of SP on the proteome of females. Sex peptide regulates gene activity differentially in the head and in the abdomen. Genes coding for unspecific antimicrobial peptides are specifically transcribed in the abdomen, e.g. the antimicrobial peptide drosocin in epithelial tissues of the female genital tract (oviduct and calyx). Hence, SP elicits a systemic [Peng J, Zipperlen P & Kubli E (2005) Curr Biol15, 1690-1694] and an epithelial immune response. Ectopic expression of SP in the fat body of transgenic virgin females (with subsequent secretion into the hemolymph) does not elicit drosocin synthesis in the genital tract. Thus, the receptors for the stimulation of the systemic and the epithelial responses by SP are compartmentalized. The hydroxyproline (P*) motif of SP, P*TKFP*IP*SP*NP*, is identified as a novel elicitor of the innate immune response. We suggest that SP acts by chemical mimicry of sugar components of the bacterial cell wall. Thus, SP may induce the immune system via pattern recognition receptors.

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Gene Expression in a Drosophila Model of Mitochondrial Disease

et al. 2010

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BackgroundA point mutation in the Drosophila gene technical knockout (tko), encoding mitoribosomal protein S12, was previously shown to cause a phenotype of respiratory chain deficiency, developmental delay, and neurological abnormalities similar to those presented in many human mitochondrial disorders, as well as defective courtship behavior.Methodology/Principal FindingsHere, we describe a transcriptome-wide analysis of gene expression in tko25t mutant flies that revealed systematic and compensatory changes in the expression of genes connected with metabolism, including up-regulation of lactate dehydrogenase and of many genes involved in the catabolism of fats and proteins, and various anaplerotic pathways. Gut-specific enzymes involved in the primary mobilization of dietary fats and proteins, as well as a number of transport functions, were also strongly up-regulated, consistent with the idea that oxidative phosphorylation OXPHOS dysfunction is perceived physiologically as a starvation for particular biomolecules. In addition, many stress-response genes were induced. Other changes may reflect a signature of developmental delay, notably a down-regulation of genes connected with reproduction, including gametogenesis, as well as courtship behavior in males; logically this represents a programmed response to a mitochondrially generated starvation signal. The underlying signalling pathway, if conserved, could influence many physiological processes in response to nutritional stress, although any such pathway involved remains unidentified.Conclusions/SignificanceThese studies indicate that general and organ-specific metabolism is transformed in response to mitochondrial dysfunction, including digestive and absorptive functions, and give important clues as to how novel therapeutic strategies for mitochondrial disorders might be developed.

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A Cytoplasmic Suppressor of a Nuclear Mutation Affecting Mitochondrial Functions inDrosophila

Chen

Oliveira

Sanz

et al. 2012

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Phenotypes relevant to oxidative phosphorylation (OXPHOS) in eukaryotes are jointly determined by nuclear and mitochondrial DNA (mtDNA). Thus, in humans, the variable clinical presentations of mitochondrial disease patients bearing the same primary mutation, whether in nuclear or mitochondrial DNA, have been attributed to putative genetic determinants carried in the “other” genome, though their identity and the molecular mechanism(s) by which they might act remain elusive. Here we demonstrate cytoplasmic suppression of the mitochondrial disease-like phenotype of the Drosophila melanogaster nuclear mutant tko25t, which includes developmental delay, seizure sensitivity, and defective male courtship. The tko25t strain carries a mutation in a mitoribosomal protein gene, causing OXPHOS deficiency due to defective intramitochondrial protein synthesis. Phenotypic suppression was associated with increased mtDNA copy number and increased mitochondrial biogenesis, as measured by the expression levels of porin voltage dependent anion channel and Spargel (PGC1α). Ubiquitous overexpression of Spargel in tko25t flies phenocopied the suppressor, identifying it as a key mechanistic target thereof. Suppressor-strain mtDNAs differed from related nonsuppressor strain mtDNAs by several coding-region polymorphisms and by length and sequence variation in the noncoding region (NCR), in which the origin of mtDNA replication is located. Cytoplasm from four of five originally Wolbachia-infected strains showed the same suppressor effect, whereas that from neither of two uninfected strains did so, suggesting that the stress of chronic Wolbachia infection may provide evolutionary selection for improved mitochondrial fitness under metabolic stress. Our findings provide a paradigm for understanding the role of mtDNA genotype in human disease.

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One-pot pyrolysis preparation of carbon dots as eco-friendly nanoadditives of water-based lubricants

Wang

et al. 2019

Carbon

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Shanjun Chen

Gradual Release of Sperm Bound Sex-Peptide Controls Female Postmating Behavior in Drosophila

The hydroxyproline motif of male sex peptide elicits the innate immune response in Drosophila females

Gene Expression in a Drosophila Model of Mitochondrial Disease

A Cytoplasmic Suppressor of a Nuclear Mutation Affecting Mitochondrial Functions inDrosophila

One-pot pyrolysis preparation of carbon dots as eco-friendly nanoadditives of water-based lubricants

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