Conservation of the links between gene transcription and chromosomal organization in the highly reduced genome of Buchnera aphidicola

<p>Abstract</p> <p>Background</p> <p>Genomic studies on bacteria have clearly shown the existence of chromosomal organization as regards, for example, to gene localization, order and orientation. Moreover, transcriptomic analyses have demonstrated that, in free-living bacteria, gene transcription levels and chromosomal organization are mutually influenced. We have explored the possible conservation of relationships between mRNA abundances and chromosomal organization in the highly reduced genome of <it>Buchnera aphidicola</it>, the primary endosymbiont of the aphids, and a close relative to <it>Escherichia coli</it>.</p> <p>Results</p> <p>Using an oligonucleotide-based microarray, we normalized the transcriptomic data by genomic DNA signals in order to have access to inter-gene comparison data. Our analysis showed that mRNA abundances, gene organization (operon) and gene essentiality are correlated in <it>Buchnera </it>(i.e., the most expressed genes are essential genes organized in operons) whereas no link between mRNA abundances and gene strand bias was found. The effect of <it>Buchnera </it>genome evolution on gene expression levels has also been analysed in order to assess the constraints imposed by the obligate symbiosis with aphids, underlining the importance of some gene sets for the survival of the two partners. Finally, our results show the existence of spatial periodic transcriptional patterns in the genome of <it>Buchnera</it>.</p> <p>Conclusion</p> <p>Despite an important reduction in its genome size and an apparent decay of its capacity for regulating transcription, this work reveals a significant correlation between mRNA abundances and chromosomal organization of the aphid-symbiont <it>Buchnera</it>.</p

New insight into the RNA interference response against cathepsin-L gene in the pea aphid, Acyrthosiphon pisum: Molting or gut phenotypes specifically induced by injection or feeding treatments.

epub ahead of printInternational audience: RNA interference (RNAi) has been widely and successfully used for gene inactivation in insects, including aphids, where dsRNA administration can be performed either by feeding or microinjection. However, several aspects related to the aphid response to RNAi, as well as the influence of the administration method on tissue response, or the mixed success to observe phenotypes specific to the gene targeted, are still unclear in this insect group. In the present study, we made the first direct comparison of two administration methods (injection or feeding) for delivery of dsRNA targeting the cathepsin-L gene in the pea aphid, Acyrthosiphon pisum. In order to maximize the possibility of discovering specific phenotypes, the effect of the treatment was analyzed in single individual aphids at the level of five body compartments: the bacteriocytes, the gut, the embryonic chains, the head and the remaining body carcass. Our analysis revealed that gene expression knockdown effect in each single body compartment was dependent on the administration method used, and allowed us to discover new functions for the cathepsin-L gene in aphids. Injection of cathepsin-L dsRNA was much more effective on carcass and head, inducing body morphology alterations, and suggesting a novel role of this gene in the molting of these insects. Administration by feeding provoked cathepsin-L knockdown in the gut and specific gut epithelial cell alteration, therefore allowing a better characterization of tissue specific role of this gene in aphids

A Genomic Reappraisal of Symbiotic Function in the Aphid/Buchnera Symbiosis: Reduced Transporter Sets and Variable Membrane Organisations

Buchnera aphidicola is an obligate symbiotic bacterium that sustains the physiology of aphids by complementing their exclusive phloem sap diet. In this study, we reappraised the transport function of different Buchnera strains, from the aphids Acyrthosiphon pisum, Schizaphis graminum, Baizongia pistaciae and Cinara cedri, using the re-annotation of their transmembrane proteins coupled with an exploration of their metabolic networks. Although metabolic analyses revealed high interdependencies between the host and the bacteria, we demonstrate here that transport in Buchnera is assured by low transporter diversity, when compared to free-living bacteria, being mostly based on a few general transporters, some of which probably have lost their substrate specificity. Moreover, in the four strains studied, an astonishing lack of inner-membrane importers was observed. In Buchnera, the transport function has been shaped by the distinct selective constraints occurring in the Aphididae lineages. Buchnera from A. pisum and S. graminum have a three-membraned system and similar sets of transporters corresponding to most compound classes. Transmission electronic microscopic observations and confocal microscopic analysis of intracellular pH fields revealed that Buchnera does not show any of the typical structures and properties observed in integrated organelles. Buchnera from B. pistaciae seem to possess a unique double membrane system and has, accordingly, lost all of its outer-membrane integral proteins. Lastly, Buchnera from C. cedri revealed an extremely poor repertoire of transporters, with almost no ATP-driven active transport left, despite the clear persistence of the ancestral three-membraned system

Disruption of phenylalanine hydroxylase reduces adult lifespan and fecundity, and impairs embryonic development in parthenogenetic pea aphids

International audiencePhenylalanine hydroxylase (PAH) is a key tyrosine-biosynthetic enzyme involved in neurological and melanin-associated physiological processes. Despite extensive investigations in holometabolous insects, a PAH contribution to insect embryonic development has never been demonstrated. Here, we have characterized, for the first time, the PAH gene in a hemimetabolous insect, the aphid Acyrthosiphon pisum. Phylogenetic and sequence analyses confirmed that ApPAH is closely related to metazoan PAH, exhibiting the typical ACT regulatory and catalytic domains. Temporal expression patterns suggest that ApPAH has an important role in aphid developmental physiology, its mRNA levels peaking at the end of embryonic development. We used parental dsApPAH treatment to generate successful knockdown in aphid embryos and to study its developmental role. ApPAH inactivation shortens the adult aphid lifespan and considerably affects fecundity by diminishing the number of nymphs laid and impairing embryonic development, with newborn nymphs exhibiting severe morphological defects. Using single nymph HPLC analyses, we demonstrated a significant tyrosine deficiency and a consistent accumulation of the upstream tyrosine precursor, phenylalanine, in defective nymphs, thus confirming the RNAi-mediated disruption of PAH activity. This study provides first insights into the role of PAH in hemimetabolous insects and demonstrates that this metabolic gene is essential for insect embryonic development

Bacteriocyte cell death in the pea aphid/ Buchnera symbiotic system

International audienceSymbiotic associations play a pivotal role in multicellular life by facilitating acquisition of new traits and expanding the ecological capabilities of organisms. In insects that are obligatorily dependent on intracellular bacterial symbionts, novel host cells (bacteriocytes) or organs (bacteriomes) have evolved for harboring beneficial microbial partners. The processes regulating the cellular life cycle of these endosymbiont-bearing cells, such as the cell-death mechanisms controlling their fate and elimination in response to host physiology, are fundamental questions in the biology of symbiosis. Here we report the discovery of a cell-death process involved in the degeneration of bacteriocytes in the hemipteran insect Acyrthosiphon pisum This process is activated progressively throughout aphid adulthood and exhibits morphological features distinct from known cell-death pathways. By combining electron microscopy, immunohistochemistry, and molecular analyses, we demonstrated that the initial event of bacteriocyte cell death is the cytoplasmic accumulation of nonautophagic vacuoles, followed by a sequence of cellular stress responses including the formation of autophagosomes in intervacuolar spaces, activation of reactive oxygen species, and Buchnera endosymbiont degradation by the lysosomal system. We showed that this multistep cell-death process originates from the endoplasmic reticulum, an organelle exhibiting a unique reticular network organization spread throughout the entire cytoplasm and surrounding Buchnera aphidicola endosymbionts. Our findings provide insights into the cellular and molecular processes that coordinate eukaryotic host and endosymbiont homeostasis and death in a symbiotic system and shed light on previously unknown aspects of bacteriocyte biological functioning

CycADS: an annotation database system to ease the development and update of BioCyc databases.

International audienceIn recent years, genomes from an increasing number of organisms have been sequenced, but their annotation remains a time-consuming process. The BioCyc databases offer a framework for the integrated analysis of metabolic networks. The Pathway tool software suite allows the automated construction of a database starting from an annotated genome, but it requires prior integration of all annotations into a specific summary file or into a GenBank file. To allow the easy creation and update of a BioCyc database starting from the multiple genome annotation resources available over time, we have developed an ad hoc data management system that we called Cyc Annotation Database System (CycADS). CycADS is centred on a specific database model and on a set of Java programs to import, filter and export relevant information. Data from GenBank and other annotation sources (including for example: KAAS, PRIAM, Blast2GO and PhylomeDB) are collected into a database to be subsequently filtered and extracted to generate a complete annotation file. This file is then used to build an enriched BioCyc database using the PathoLogic program of Pathway Tools. The CycADS pipeline for annotation management was used to build the AcypiCyc database for the pea aphid (Acyrthosiphon pisum) whose genome was recently sequenced. The AcypiCyc database webpage includes also, for comparative analyses, two other metabolic reconstruction BioCyc databases generated using CycADS: TricaCyc for Tribolium castaneum and DromeCyc for Drosophila melanogaster. Linked to its flexible design, CycADS offers a powerful software tool for the generation and regular updating of enriched BioCyc databases. The CycADS system is particularly suited for metabolic gene annotation and network reconstruction in newly sequenced genomes. Because of the uniform annotation used for metabolic network reconstruction, CycADS is particularly useful for comparative analysis of the metabolism of different organisms. Database URL: http://www.cycadsys.org

Molecular evolutionary trends and feeding ecology diversification in the Hemiptera, anchored by the milkweed bug genome.

BACKGROUND: The Hemiptera (aphids, cicadas, and true bugs) are a key insect order, with high diversity for feeding ecology and excellent experimental tractability for molecular genetics. Building upon recent sequencing of hemipteran pests such as phloem-feeding aphids and blood-feeding bed bugs, we present the genome sequence and comparative analyses centered on the milkweed bug Oncopeltus fasciatus, a seed feeder of the family Lygaeidae. RESULTS: The 926-Mb Oncopeltus genome is well represented by the current assembly and official gene set. We use our genomic and RNA-seq data not only to characterize the protein-coding gene repertoire and perform isoform-specific RNAi, but also to elucidate patterns of molecular evolution and physiology. We find ongoing, lineage-specific expansion and diversification of repressive C2H2 zinc finger proteins. The discovery of intron gain and turnover specific to the Hemiptera also prompted the evaluation of lineage and genome size as predictors of gene structure evolution. Furthermore, we identify enzymatic gains and losses that correlate with feeding biology, particularly for reductions associated with derived, fluid nutrition feeding. CONCLUSIONS: With the milkweed bug, we now have a critical mass of sequenced species for a hemimetabolous insect order and close outgroup to the Holometabola, substantially improving the diversity of insect genomics. We thereby define commonalities among the Hemiptera and delve into how hemipteran genomes reflect distinct feeding ecologies. Given Oncopeltus's strength as an experimental model, these new sequence resources bolster the foundation for molecular research and highlight technical considerations for the analysis of medium-sized invertebrate genomes

Quelques aspects (anatomie et enzymologie) des relations nutritionnelles entre la fourmi attine Acromyrmex octospinosus (Hymenoptera - Formicidae) et son champignon symbiotique

Some aspects of the digestive physiology of the leaf-cutting ant Acromyrmex octospinosus were studied. The results are important for research on the development of new methods of control.Les Attines ou fourmis champignonnistes sont d'importants ravageurs des cultures du monde néotropical. L'indispensable effet retard, à conférer aux insecticides chimiques ou biologiques pour une lutte efficace pourrait être obtenu par une encapsulation dans une enveloppe digestible par les sécrétions des fourmis. Quelques aspects de la physiologie digestive d'une Attine, Acromyrmex octospinosus (Reich), ont été étudiés dans ce but. 1- L'étude morphologique du tube buccal et l'observation de la prise de nourriture ont permis de localiser, de décrire et de comprendre le mécanisme du filtre infrabuccal. La poche infrabuccale, remplie pendant l'alimentation et lors des différents comportements de nettoyage, se vide en moyenne une fois par jour en raison de la gêne causée par sa distension. Cette fréquence ne permet pas à la microflore de digérer les déchets organiques, mais peut être suffisante pour certaines hydrolyses salivaires. 2- Après une étude anatomique du tractus digestif des adultes et des larves, les enzymes digestives des sécrétions stomacales et glandulaires sont mises en évidence par une microméthode semi-quantitative. Les glandes labiales des adultes possèdent une activité béta-N-acétylglucosaminidasique et alpha-1-4-glucosadique. En plus de cette dernière, l'estomac sécrète des exopeptidases et lipases. Les autres glandes reliées au tractus alimentaire ne produisent pas d'enzymes digestives. Aucune endopeptidase n'est révélée chez l'adulte, par contre l'estomac des larves possède une activité chymotrypsique. 3- Une béta-N-acétylglucosaminidase, une chitobiase et une chitinase sont présentes dans les glandes labiales. Les caractéristiques (pH optimum, température optimale, Km) de ces enzymes permettent de les différentier nettement de celles qui sont décrites à ce jour. Ceci peut être lié au fait que ces fonctions digestives restent exceptionnelles chez les insectes. Pour A. octospinosus, les activités béta-N-acétylglucosaminidasique et chitobiasique sont le fait de deux enzymes différentes. L'action chitinolytique n'est pas liée à une microflore endosymbiotique. 4- L'activité alpha-1-4-glucosadique des glandes labiales et de l'estomac est précisée. Les glandes ne possèdent que l'amylase et l'estomac sécrète maltase et tréhalase. Les caractéristiques de ces enzymes sont étudiées. Amylase et tréhalase paraissent être des enzymes inductibles. 5- Suite à ces travaux, un schéma catabolique, tenant compte de l'association avec un champignon symbiotique, est proposé pour A. octospinosus. Les données sur la filtration buccale et l'enzymologie de la partie antérieure du tube digestif permettent de définir la taille des microcapsules et la nature des polymères digestibles à utiliser pour induire un effet retard des insecticides

Nouvelle Stratégie de Protection des Cultures Vivrières Contre la Fourmi Attine Acromyrmex octospinosus (Reich) en Guadeloupe : les plantes résistantes à la défoliation

Acromyrmex octospinosus is the only Attine species present in Guadeloupe. It is an important phytophagous pest of food crops. In prospect of a selection of resistant cultivars, we have undertaken the study of some Dioscoreaceae forsaken by the leaf cutting ant during the selection of plant material to cut out. Biochemical and ethological investigations arc undertaken to determine the causes of this Attine inapperence to these plants. This natural resistance is of chemical kind and the cansing marcers are extractible with methanol. The preliminary analysis in thin layer chromatography allows linking them up 10 the saponin group. This point seems to be confirmed by the saponin quantitative analysis in the five studied Dioscoreaceae species