Mechanism of colonization in the Mediterranean-sea. Asperarca nodulosa: morphological and genetic analysis

Il mar Mediterraneo è un bacino acquifero peculiare per la recente colonizzazione di specie aliene, per l’evento geologico legato alla Crisi di salinità del Messiniano e per l’ampio range di salinità. L’individuazione dei meccanismi di colonizzazione si è incentrata sullo studio morfologico, istologico e molecolare delle specie Asperarca nodulosa ed Anadara demiri (Arcidae-Bivalvia-Mollusca). La ricerca si è basata sulla caratterizzazione morfologica, con utilizzo del microscopio elettronico a scansione, al fine di individuare il tipo di sviluppo larvale. Successivamente i dati rilevati al S.E.M. sono stati supportati dall’indagine istologica che ha evidenziato la presenza di gonadi a sessi distinti e la non incubazione larvale. L’ulteriore analisi filogenetica ha permesso di evidenziare la netta suddivisione tra le tre popolazioni studiate, indagine effettuata tramite marcatori arbitrari (RAPDs) e nucleari specifici (ITS). I risultati ottenuti trovano supporto da quanto noto su base morfologica. I dati, nel complesso, mostrano una perdita delle capacità di diffusione della specie tramite sviluppo larvale plantotrofico a favore di quello lecitotrofico o diretto; tale tesi è ulteriormente supportata dai dati molecolari che mostrano una netta separazione delle popolazioni prese in esame ed un conseguente isolamento tra individui appartenenti a zone di profondità del Mediterraneo (sub-bacini abissali). La ricerca ha, inoltre,esaminato i meccanismi di introduzione attuali nel bacino acquifero che è soggetto ad una nuova invasione da parte specie aliene dovuta all’apertura del canale di Suez. L’analisi si è focalizzata sullo studio per l’ individuazione dell’origine della specie aliena A. demiri , di presunta derivazione Indo-Pacifica, ma rivelatasi, nei dati preliminari, di origine Atlantica.

Spatio-temporal variation of macrofaunal assemblages in the deep Blanes submarine canyon

The spatio-temporal variations in diversity and abundance of deep-sea macrofaunal assemblages (excluding meiofaunal taxa, as Nematoda, Copepoda and Ostracoda) from the Blanes Canyon (BC) and adjacent open slope are described. The Catalan Sea basin is characterized by the presence of numerous submarine canyons, which are globally acknowledged as biodiversity hot-spots, due to their disturbance regime and incremented conveying of organic matter. This area is subjected to local deep-sea fisheries activities, and to recurrent cold water cascading events from the shelf. The upper canyon (~900 m), middle slope (~1200 m) and lower slope (~1500 m) habitats were investigated during three different months (October 2008, May 2009 and September 2009). A total of 624 specimens belonging to 16 different taxa were found into 67 analyzed samples, which had been collected from the two study areas. Of these, Polychaeta, Mollusca and Crustacea were always the most abundant groups. As expected, the patterns of species diversity and evenness were different in time and space. Both in BC and open slope, taxa diversity and abundance are higher in the shallowest depth and lowest at -1500 m depth. This is probably due to different trophic regimes at these depths. The abundance of filter-feeders is higher inside BC than in the adjacent open slope, which is also related with an increment of predator polychaetes. Surface deposit-feeders are more abundant in the open slope than in BC, along with a decrement of filter-feeders and their predators. Probably these differences are due to higher quantities of suspended organic matter reaching the canyon. The multivariate analyses conducted on major taxa point out major differences effective taxa richness between depths and stations. In September 2009 the analyzed communities double their abundances, with a corresponding increase in richness of taxa. This could be related to a mobilizing event, like the release of accumulated food-supply in a nepheloid layer associated to the arrival of autumn. The highest abundance in BC is detected in the shallowest depth and in late summer (September), probably due to higher food availability caused by stronger flood events coming from Tordera River. The effects of such events seemed to involve adjacent open slope too. The nMDS conducted on major taxa abundance shows a slight temporal difference between the three campaigns samples, with a clear clustering between samples of Sept 09. All depth and all months were dominated by Polychaeta, which have been identified to family level and submitted to further analysis. Family richness have clearly minimum at the -1200 m depth of BC, highlighting the presence of a general impact affecting the populations in the middle slope. Three different matrices have been created, each with a different taxonomic level (All Taxa “AT”, Phylum Level “PL” and Polychaeta Families “PF”). Multivariate analysis (MDS, SIMPER) conducted on PL matrix showed a clear spatial differences between stations (BC and open slope) and depths. MDSs conducted on other two matrices (AT and PF) showed similar patterns, but different from PL analysis. A 2 nd stage analysis have been conducted to understand differences between different taxonomic levels, and PL level has been chosen as the most representative of variation. The faunal differences observed were explained by depth, station and season. All work has been accomplished in the Centre d’estudis avançats de Blanes (CEAB-CSIC), within the framework of Spanish PROMETEO project "Estudio Integrado de Cañones y Taludes PROfundos del MEdiTErráneo Occidental: un hábitat esencial", Ref. CTM2007-66316-C02- 01/MAR.

Charakterisierung und Expression zweier multimerer Hämolympheproteine der Schnecke Biomphalaria glabrata

Die tropische Süsswasserschnecke Biomphalaria glabrata gehört zu der Familie der Planorbidae, welche als einziges Taxon der Gastropoden Hämoglobin als Sauerstofftransportprotein verwenden. Als Zwischenwirt des Bilharzioseerregers Schistosoma mansoni ist B. glabrata von tropenmedizinischer Interesse. Das extrazelluläre BgHb zeigt sich mit einem Anteil von 95% als Hauptprotein in der Hämolymphe. Dieses setzt sich aus Polypeptidketten mit je 240kDa zusammen. Diese wiederrum lassen sich in 13-Häm-Domänen und eine deutlich kleinere N-terminalen nicht Häm-Domäne untergliedern. Die Sequenzierung von zwei der drei Untereinheiten des BgHb (BgHb1, BgHb2) ermöglichte die rekombinante Expression ganzer Untereinheiten in Insektenzellen, und die Expression einiger BgHb2-Konstrukte in E. coli Zellen. Im Rahmen meiner Arbeit gelang es, BgHb1 in biologisch aktiver Form in Insektenzellen zu exprimieren. Das aus dem Überstand der Insektenzellen aufgereinigte rekombinante BgHb1 zeigte eine immunologische Identität mit nativen BgHb. Strukturelle Analysen belegten zudem die Assemblierung des rekombinanten BgHb1 zu einer dem nativen Protein gleichenden Quartärstruktur. Demnach konnte in meiner Arbeit der Nachweis erbracht werden, dass eine einzelne Isoform in der Lage ist, zur Quartärstruktur zu assemblieren. Zusätzlich ergaben Sauerstoffbindungsanalysen, dass das rekombinante BgHb1 reversibel Sauerstoff binden kann.rnIn den restlichen 5% der B. glabrata Hämolymphe zeigt sich ein rudimentäres Hämocyanin, welches für den Sauerstofftransport keine Rolle zu spielen scheint, und ein rosettenförmiges Protein, das es aufzuklären galt. Durch massenspektrometrische Analysen erhaltene Peptidfragmente zeigten eine hohe Sequenzähnlichkeit zu den löslichen Acetylcholin -Bindeproteinen anderer Mollusken. Diese AChBP zeigen eine hohe Sequenzähnlichkeit zur Ligandenbindedomäne von Rezeptoren der Cys-Loop-Proteinfamilie.rnDatenbankrecherchen deckten die Existenz zweier Isoformen auf

Biodiversità malacologica degli ecosistemi a coralli bianchi del Mediterraneo, dall'ultimo glaciale ad oggi

Nello studio di questa tesi è stata descritta una ricerca condotta allo scopo di fornire un contributo alla conoscenza della biodiversità analizzando la componente macrofaunistica subfossile e recente del Phylum Mollusca del Canale di Sicilia e del Golfo di Cadice. Tali organismi sono già da tempo noti in questi ambienti poiché associati a biocostruzioni a coralli bianchi presenti lungo i margini continentali atlantici e mediterranei i cui costituenti principali sono gli sclerattiniari coloniali Lophelia pertusa e Madrepora oculata. Tuttavia ben poco si conosce sull’ecologia di queste specie che si ritrovano spesso influenzate da scambi idrologici e biologici attraverso lo Stretto di Gibilterra. Nel corso di questo studio sono state analizzate 7 carote sedimentarie marine campionate durante diverse campagne oceanografiche: 6 carotaggi atlantici prelevati durante la campagna oceanografica Meteor nel Golfo di Cadice e 1 carota campionata nel Canale di Sicilia durante la campagna oceanografica MARCOS guidata dall’ISMAR-CNR di Bologna, sulla quale si concentra l’attenzione di questo lavoro. I dati raccolti sono stati analizzati in maniere quantitativa, per questo è stato utilizzato il software per analisi statistiche “Past3” e sono stati combinati con l’analisi qualitativa dei campioni in modo da ottenere il maggior numero di informazioni. Tra le analisi statistiche sono state effettuate il calcolo di tutti gli indici di dominanza, diversità, di equiripartizione e ricchezza specifica (Simpson, Shannon, Evenness e Margalef) e l’analisi multivariata NMDS (Non-metric Multi-Dimensional Scaling). Infine è stata effettuata l’analisi delle associazioni trofiche distribuite in una carota. Il risultato ha evidenziato un’elevata biodiversità per campioni prelevati in profondità e il ritrovamento di organismi appartenenti all’ultimo glaciale.

Spatio-temporal diversity of Megistozoobenthos in the Antalya Gulf and relationships with environmental features

Antalya Gulf is situated in the Levantine Sea, the second biggest and most eastern basin in the Mediterranean Sea. This area is an ultra-oligotrophic basin, strongly affected by anthropogenic inputs, in particular in the fishing areas. For this characteristic, in the Levantine Sea, there is a strong pressure on the natural resources and benthic assemblages. Furthermore, many alien species enter from Suez Canal and are well established in the area. All these pressures are leading to a degradation of the Levantine Sea. For this reason it is important to have tools to study and monitoring the functioning of the marine ecosystem. Benthic organisms are superior to many other biological groups for their response to environmental stresses. The variability of benthic assemblages on a site can reflect, in an integrative mode, the entire functioning of the marine ecosystem. In this study, that wants to analyze the spatial and temporal distribution of the benthic macrofaunal assemblages of Antalya Gulf, 90 benthic species divided in 8 taxa (Annelida, Cnidaria, Echinodermata, Echiura, Mollusca, Porifera, Sipunculida and Tunicata) were found. All the analyses conducted on the entire benthic class and later on Mollusca and Echinodermata separately highlighted the importance of depth on structuring benthic community.

Molluscan memory of injury: evolutionary insights into chronic pain and neurological disorders.

Molluscan preparations have yielded seminal discoveries in neuroscience, but the experimental advantages of this group have not, until now, been complemented by adequate molecular or genomic information for comparisons to genetically defined model organisms in other phyla. The recent sequencing of the transcriptome and genome of Aplysia californica, however, will enable extensive comparative studies at the molecular level. Among other benefits, this will bring the power of individually identifiable and manipulable neurons to bear upon questions of cellular function for evolutionarily conserved genes associated with clinically important neural dysfunction. Because of the slower rate of gene evolution in this molluscan lineage, more homologs of genes associated with human disease are present in Aplysia than in leading model organisms from Arthropoda (Drosophila) or Nematoda (Caenorhabditis elegans). Research has hardly begun in molluscs on the cellular functions of gene products that in humans are associated with neurological diseases. On the other hand, much is known about molecular and cellular mechanisms of long-term neuronal plasticity. Persistent nociceptive sensitization of nociceptors in Aplysia displays many functional similarities to alterations in mammalian nociceptors associated with the clinical problem of chronic pain. Moreover, in Aplysia and mammals the same cell signaling pathways trigger persistent enhancement of excitability and synaptic transmission following noxious stimulation, and these highly conserved pathways are also used to induce memory traces in neural circuits of diverse species. This functional and molecular overlap in distantly related lineages and neuronal types supports the proposal that fundamental plasticity mechanisms important for memory, chronic pain, and other lasting alterations evolved from adaptive responses to peripheral injury in the earliest neurons. Molluscan preparations should become increasingly useful for comparative studies across phyla that can provide insight into cellular functions of clinically important genes.

El sistema genital masculino y el control androtrófico en un ampulárido

Fil: Gamarra Luques, Carlos . Universidad Nacional de Cuyo. Facultad de Ciencias Médicas