Histoquímica de la glándula digestiva en la ostra perla Pinctada imbricata (Pterioida: Pteriidae) durante su ciclo gametogénico, Venezuela / Histochemistry of the digestive gland of the pearl oyster Pinctada imbricata (Pterioida: Pteriidae) during the gametogenic cycle, Venezuela

ResumenLas técnicas histoquímicas hoy en día permiten seleccionar áreas de tejido y generar información confiable sobre la distribución de reservas energéticas en los moluscos bivalvos durante su ciclo de vida. Mensualmente se examinaron las gónadas y la glándula digestiva (GD) de 15 individuos recolectados entre abril 2012 y febrero 2013 por técnicas histológicas e histoquímicas de microscopia de luz, para relacionar el ciclo gametogénico y la disponibilidad de reservas energéticas con los parámetros ambientales. En el ciclo gametogénico, la proporción mensual de organismos maduros fue mayor en los machos entre agosto (40 %) y noviembre (53 %), mientras que las hembras tienden a presentar un ciclo más corto y sincronizado de liberación de gametos (septiembre 67 % y octubre 60 %). Los períodos intensos de desoves coinciden en ambos sexos (octubre-enero). Entre abril-agosto 2012 y enero-febrero 2013, se observan los valores más altos del IGl (índice de glúcido), mientras que en septiembre disminuyen y alcanzaron valores mínimos entre octubre y diciembre. El IL (índice de lípidos) presentó valores máximos en abril-2012 y febrero-2013, con un valor intermedio en agosto. Los resultados indican que las reservas de la GD presentan un patrón de movilización en relación inversa con la proliferación de los gametos de ambos sexos, vinculado directamente con la disponibilidad de nutrientes como la clorofila a y el seston orgánico.

AbstractHistochemical techniques today allow you to select areas of tissue and generate reliable information on the distribution of energy reserves in bivalve molluscs during their life cycle. The main objective of this study was to describe and relate the gametogenic cycle with the availability of energy reserves and the environmental parameters. For this, we sampled and examined the gonads and digestive glands (DG) of 15 individuals collected monthly during April 2012 and February 2013. We processed and analyzed the samples by standard histological and histochemical light microscopy techniques. Our results showed that for the gametogenic cycle, the monthly proportion of mature organisms was higher for males, between August (40 %) and November (53 %), while the females tend to have a shorter synchronized cycle and release of gametes in September (67 %) and October (60 %). The intense spawning periods in both sexes was the same (October to January). Between the periods April-August 2012 and January-February 2013, we observed the highest values of IGl and glucide index (instead, a decrease was observed in September, reaching minimum values during the period October-December). Besides, the maximum values of IL, lipid index, were observed in April-2012 and February-2013, with an intermediate value in August-2013. The results indicated that the reserves of the GD have a pattern of mobilization inversely related to the proliferation of gametes in both sexes; this was directly linked to the availability of nutrients such as chlorophyll a and the organic seston. Rev. Biol. Trop. 64 (2): 849-858. Epub 2016 June 01.

Identification and expression characterization of three Wnt signaling genes in pearl oyster (Pinctada fucata).

The Wnt signaling pathway plays an important role in animal development and in the biomineralization process. At present, although the biomineralization mechanism in pearl oyster (Pinctada fucata) has been extensively studied, there is little research on the Wnt signaling pathway in pearl oyster. To understand the potential role of the Wnt signaling pathway in pearl oyster, we cloned and sequenced three genes from the Wnt signaling pathway in pearl oyster that encode the following proteins: ß-catenin, Dishevelled (Dvl) and T-cell factor (TCF). Genomic structure analysis revealed that Pf-ß-catenin genomic DNA contained 15 exons, Pf-Dvl genomic DNA contained 16 exons, and Pf-TCF genomic DNA contained 7 exons. Their deduced amino acid sequences all showed the highest identity with homologs in Crassostrea gigas. Yeast two-hybrid analysis verified that Pf-ß-catenin interacted with Pf-TCF. These three genes were ubiquitously expressed in seven pearl oyster tissues analyzed with the highest expression in the gill and a certain amount of expression in the mantle, a tissue related to shell formation. After shell notching, the dynamic changes in expression of these three genes showed that they reached a maximum at 4days, indicating their response to shell regeneration. All three genes were constitutively expressed during five developmental stages of the pearl oyster, with high levels at the early embryonic development stage. Taken together, these results suggested that Pf-ß-catenin, Pf-Dvl and Pf-TCF might participate in shell formation and early embryonic and larval development in the pearl oyster.

[Histochemistry of the digestive gland of the pearl oyster Pinctada imbricata (Pterioida: Pteriidae) during the gametogenic cycle, Venezuela]. / Histoquímica de la glándula digestiva en la ostra perla Pinctada imbricate (Pterioida: Pteriidae) durante su ciclo gametogénico, Venezuela.

Histochemical techniques today allow you to select areas of tissue and generate reliable information on the distribution of energy reserves in bivalve molluscs during their life cycle. The main objective of this study was to describe and relate the gametogenic cycle with the availability of energy reserves and the environmental parameters. For this, we sampled and examined the gonads and digestive glands (DG) of 15 individuals collected monthly during April 2012 and February 2013. We processed and analyzed the samples by standard histological and histochemical light microscopy techniques. Our results showed that for the gametogenic cycle, the monthly proportion of mature organisms was higher for males, between August (40 %) and November (53 %), while the females tend to have a shorter synchronized cycle and release of gametes in September (67 %) and October (60 %). The intense spawning periods in both sexes was the same (October to January). Between the periods April-August 2012 and January-February 2013, we observed the highest values of IGl and glucide index (instead, a decrease was observed in September, reaching minimum values during the period October-December). Besides, the maximum values of IL, lipid index, were observed in April-2012 and February-2013, with an intermediate value in August-2013. The results indicated that the reserves of the GD have a pattern of mobilization inversely related to the proliferation of gametes in both sexes; this was directly linked to the availability of nutrients such as chlorophyll a and the organic seston.

An in-silico genomic survey to annotate genes coding for early development-relevant signaling molecules in the pearl oyster, Pinctada fucata.

The pearl oyster Pinctada fucata has great potential as a model system for lophotrochozoan developmental biology research. Pinctada fucata is an important commercial resource, and a significant body of primary research on this species has emphasized its basic aquaculture biology such as larval biology and growth, aquaculture, pearl formation and quality improvement, shell formation, and biomineralization. Recently, a draft genome sequence of this species was published, and many experimental resources are currently being developed, such as bioinformatics tools, embryo and larva manipulation methods, gene knockdown technique, etc. In this paper, we report the results from our genomic survey pertaining to gene families that encode developmental signaling ligands (Fgf, Hedgehog, PDGF/VEGF, TGFß, and Wnt families). We found most of the representative genes of major signaling pathways involved in axial patterning, as well as copies of the signaling molecule paralogs. Phylogenetic character mapping was used to infer a possible evolutionary scenario of the signaling molecules in the protostomes, and to reconstruct possible copy numbers of signaling molecule-coding genes for the ancestral protostome. Our reconstruction suggests that P. fucata retains the ancestral protostome gene complement, providing further justifications for the use of this taxon as a model organism for developmental genomics research.

Cloning, characterization and immunolocalization of two subunits of calcineurin from pearl oyster (Pinctada fucata).

Calcineurin (CN), consisting of catalytic subunit (CN A) and regulatory subunit (CN B), is a multifunctional protein involved in many important physiological processes. Here, we cloned two subunits of CN (Pf-CN A and Pf-CN B) from pearl oyster Pinctada fucata and reported, for the first time, its expression patterns in the developmental stages, its enzymatic activity and immunolocalization in various tissues of adult pearl oyster. The Pf-CN A was extensively localized in all the tested tissues including mantle, gonad, digestive gland, gills, adductor muscle, and foot with strong signals detected in gonad, gills, foot, and mantle. Importantly, Pf-CN A was mainly found in the inner epithelial cells of the basal periostracal groove and lateral surface of the inner mantle fold, in which organic macromolecules used for periostracum formation and shell construction are secreted, respectively. In gill, the strong signals were distributed in the epithelial cells of the branchial filaments and the base of gill filaments. All the results suggested that Pf-CN may participate in the development of the pearl oyster and function in many ways in various physiological activities, especially in the shell formation. Our observations could provide some important clues to further understanding of the functions of CN in the oyster.