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3. Digestibilidad in vitro de carbohidratos en la langosta espinosa Panulirus argus (Latreille, 1804)

Author

Casuso, A., Rodríguez-Viera, L., and Perera, E.

Subjects
Spiny lobsters, Amylases
Abstract

El conocimiento de las capacidades digestivas de determinada especie es un aspecto clave para el establecimiento de dietas y estrategias de alimentación en cautiverio. Los carbohidratos son un macronutriente importante en la dieta y además, desde el punto de vista acuícola, son una fuente de energía barata. Sin embargo, existe un desconocimiento total de la digestión de carbohidratos en la langosta espinosa Panulirus argus. En el presente trabajo se evaluó la digestión in vitro de diferentes fuentes de carbohidratos por las enzimas digestivas de P. argus. El almidón de arroz y los almidones gelatinizados de papa y de maíz fueron los sustratos que presentaron mayores tasas de hidrólisis entre todas las fuentes probadas, seguidos por la harina de arroz, la harina de trigo, el almidón de papa, la harina de maíz, el glucógeno y el almidón de maíz. Los sustratos que mostraron las menores tasas de hidrólisis fueron el alginato, la agarosa, el agar y la carboximetil celulosa. El presente trabajo proporciona las primeras informaciones sobre la digestibilidad de carbohidratos en P. argus. The knowledge of the digestive capabilities of a particular species is a key step in the establishment of diets and feeding strategies in captivity. Carbohydrates are important macronutrients in the diet and also, from the aquaculture perspective, they represent a cheap source of energy. However, there is a lack of information concerning the digestion of carbohydrates in the spiny lobster Panulirus argus. In this study we evaluated the in vitro digestion of different carbohydrate sources by the digestive enzymes of P. argus. Rice starch, and gelatinised potato and corn starches were the substrates with higher rates of hydrolysis among all the tested sources, followed by rice flour, wheat flour, potato starch, corn flour, glycogen and corn starch. Substrates showing the lowest rates of hydrolysis were alginate, agarose, agar and carboxymethyl cellulose. This paper provides the first information on the digestibility of carbohydrates in P. argus. Published Carbohydrates digestion In vitro digestion Panulirus argus

Published
2013

4. Invertebrados marinos de la zona central del golfo de Ana María, Cuba

Author

Rodríguez-Viera, L., Rodríguez-Casariego, J., Pérez-García, J. A., Olivera, Y., and Perera-Pérez, O.

Subjects
Check lists, Marine invertebrates
Abstract

En la actualidad existe poca información sobre la diversidad biológica en el golfo de Ana María dado que la mayoría de los estudios realizados sobre esta área tienen un enfoque pesquero o hidrológico. Esto provocó que en el año 2011 se iniciara un proyecto de investigación para contribuir en el llenado de este vacío de información. En este trabajo se presenta una lista de 105 nombres de especies de invertebrados marinos identificados en la zona central del golfo de Ana María. Los moluscos fueron los más representados con un total de 43 especies que constituyen el 40,9% de las especies identificadas, seguido por los equinodermos con 26 especies que representan el 24,8% del total. La mayor riqueza de especies se encontró en los cayos de mayor área (Cuervo, Algodón Grande y Bergantines). Estos resultados constituyen un punto de referencia para futuras investigaciones que profundicen en el estudio de la diversidad y ecología de los invertebrados marinos en el área muestreada y otras zonas del golfo. Nowadays there is little information about the biological diversity in the Ana Maria gulf. Most of the research in that region has been focused on fisheries and the hydrological character. Thus in 2011 a research project was initiated to fill this information gap. This paper presents a list of 105 species of marine invertebrates identified in the central part of the Ana Maria gulf. The mollusks was the best represented group of invertebrate’s animal with 43 species that represented a 40.9% of the total, followed by the echinoderms with 26 species and 24.8% of the total. The largest keys (Cuervo, Algodón Grande y Bergantines) harbored the highest species richness. These results provided a baseline for future research to deepen the study of the diversity and ecology of marine invertebrates in the sampled area and other areas of the gulf. Published Cuba Ana Maria gulf

Published
2012

5. Panulirus argus postlarva performance fed with fresh squid

Author

Rodríguez-Viera, L. and Perera, E.

Subjects
Growth rate, Squid culture, Diets
Abstract

There is a great interest in the growout of spiny lobster postlarva captured in the wild. This activity has been developed rapidly in Asia and especially in Vietnam. However, lack of appropriated formulated diets remains the main constrain to the sustainable expansion of this activity worldwide. Until now, best growth rates have been obtained with the use of high inclusion of krill meal and/or krill hydrolysates which are expensive. However, squid is today avoided as food ingredient due to low digestibility reported. Also, fresh squid has been demonstrated to produce poor growth performance in temperate lobsters, but there is no report for P. argus fed exclusive on fresh squid. This work examines the effect of fresh squid on growth of P. argus (initial weight=1.8 ± 0.46g, initial cephalotorax length=10.62 ± 1.576 mm) during 60 days. Lobsters fed with fresh squid attained a final weight 4 times higher that the lobsters fed on fish dry pellets. Weight and size increments, as well as specific growth rates were higher for lobster fed with squid, and resulted similar to the better growth rates previously reported for P. argus and other lobsters. Results indicate that in spite of previous negative reports for spiny lobsters, fresh squid is an appropriated food for P. argus. It is suggested that processing technology should be improved for obtaining more soluble and digestible squid meals for lobsters. En la actualidad existe gran interés en la engorda de langostas espinosas a partir de postlarvas capturadas en el medio natural. Esta actividad acuícola se ha desarrollado vertiginosamente en Asia y sustenta una industria millonaria sobre todo en Vietnam. El principal impedimento para la expansión sostenible de este tipo de acuicultura a otras regiones es la ausencia de dietas formuladas adecuadas que proporcionen altas tasas de crecimiento. Los mejores crecimientos con piensos hasta la fecha se han logrado con la inclusión de grandes cantidades de harina de krill y/o hidrolizados de krill, ingredientes de elevado costo. Sin embargo, actualmente se evita el uso de harina de calamar en dietas experimentales para langostas debido a reportes de baja digestibilidad. También se ha demostrado que el calamar fresco produce bajos crecimientos en algunas langostas de aguas templadas, pero no existen reportes de crecimiento de P. argus alimentadas exclusivamente con calamar. En el presente trabajo se estudió el efecto del calamar fresco sobre el crecimiento de postlarvas de P. argus (peso inicial=1.8 ± 0.46 g, largo de cefalotórax inicial=10.62±1.576 mm). El experimento tuvo una duración de 60 días. Las postlarvas alimentadas con calamar alcanzaron pesos finales 4 veces superiores a las que fueron alimentadas con pienso de pescado. Los incrementos de peso, talla y la tasa de crecimiento específica también resultaron superiores con calamar fresco y fueron similares a los mejores crecimientos reportados en la literatura para P. argus y otras especies. Los resultados indican que a diferencia de lo reportado anteriormente para langostas espinosas, el calamar fresco es un alimento apropiado para P. argus. Se sugiere que se debe mejorar los procedimientos de obtención de las harinas de calamar, con el objetivo de mejorar su digestibilidad para langostas espinosas. Unpublished Panulirus argus Spiny lobster

Published
2012

6. Toward a More Comprehensive View of α-Amylase across Decapods Crustaceans.

Author

Rodríguez-Viera L, Alpízar-Pedraza D, Mancera JM, and Perera E

Abstract

Decapod crustaceans are a very diverse group and have evolved to suit a wide variety of diets. Alpha-amylases enzymes, responsible for starch and glycogen digestion, have been more thoroughly studied in herbivore and omnivore than in carnivorous species. We used information on the α-amylase of a carnivorous lobster as a connecting thread to provide a more comprehensive view of α-amylases across decapods crustaceans. Omnivorous crustaceans such as shrimps, crabs, and crayfish present relatively high amylase activity with respect to carnivorous crustaceans. Yet, contradictory results have been obtained and relatively high activity in some carnivores has been suggested to be a remnant trait from ancestor species. Here, we provided information sustaining that high enzyme sequence and overall architecture conservation do not allow high changes in activity, and that differences among species may be more related to number of genes and isoforms, as well as transcriptional and secretion regulation. However, recent evolutionary analyses revealed that positive selection might have also occurred among distant lineages with feeding habits as a selection force. Some biochemical features of decapod α-amylases can be related with habitat or gut conditions, while less clear patterns are observed for other enzyme properties. Likewise, while molt cycle variations in α-amylase activity are rather similar among species, clear relationships between activity and diet shifts through development cannot be always observed. Regarding the adaptation of α-amylase to diet, juveniles seem to exhibit more flexibility than larvae, and it has been described variation in α-amylase activity or number of isoforms due to the source of carbohydrate and its level in diets, especially in omnivore species. In the carnivorous lobster, however, no influence of the type of carbohydrate could be observed. Moreover, lobsters were not able to fine-regulate α-amylase gene expression in spite of large changes in carbohydrate content of diet, while retaining some capacity to adapt α-amylase activity to very low carbohydrate content in the diets. In this review, we raised arguments for the need of more studies on the α-amylases of less studied decapods groups, including carnivorous species which rely more on dietary protein and lipids, to broaden our view of α-amylase in decapods crustaceans.

Published
2021
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7. Carbohydrates digestion and metabolism in the spiny lobster ( Panulirus argus ): biochemical indication for limited carbohydrate utilization.

Author

Rodríguez-Viera L, Perera E, Montero-Alejo V, Perdomo-Morales R, García-Galano T, Martínez-Rodríguez G, and Mancera JM

Abstract

As other spiny lobsters, Panulirus argus is supposed to use preferentially proteins and lipids in energy metabolism, while carbohydrates are well digested but poorly utilized. The aim of this study was to evaluate the effect of dietary carbohydrate level on digestion and metabolism in the spiny lobster P. argus . We used complementary methodologies such as post-feeding flux of nutrients and metabolites, as well as measurements of α-amylase expression and activity in the digestive tract. Lobsters readily digested and absorbed carbohydrates with a time-course that is dependent on their content in diet. Lobster showed higher levels of free glucose and stored glycogen in different tissues as the inclusion of wheat flour increased. Modifications in intermediary metabolism revealed a decrease in amino acids catabolism coupled with a higher use of free glucose as carbohydrates rise up to 20%. However, this effect seems to be limited by the metabolic capacity of lobsters to use more than 20% of carbohydrates in diets. Lobsters were not able to tightly regulate α-amylase expression according to dietary carbohydrate level but exhibited a marked difference in secretion of this enzyme into the gut. Results are discussed to highlight the limitations to increasing carbohydrate utilization by lobsters. Further growout trials are needed to link the presented metabolic profiles with phenotypic outcomes., Competing Interests: The authors declare there are no competing interests.

Published
2017
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8. Panusin represents a new family of β-defensin-like peptides in invertebrates.

Author

Montero-Alejo V, Corzo G, Porro-Suardíaz J, Pardo-Ruiz Z, Perera E, Rodríguez-Viera L, Sánchez-Díaz G, Hernández-Rodríguez EW, Álvarez C, Peigneur S, Tytgat J, and Perdomo-Morales R

Subjects
Animals, Arthropod Proteins genetics, Biological Evolution, Dimerization, Invertebrates, Phylogeny, Protein Conformation, Structural Homology, Protein, beta-Defensins genetics, Anti-Infective Agents metabolism, Arthropod Proteins metabolism, Hemocytes immunology, Palinuridae immunology, beta-Defensins metabolism
Abstract

Beta_defensin have been solely found in vertebrates until β-defensin-like peptides were described as transcript isoforms in two species of Panulirus genus. They were considered as putative antimicrobials since their biological activity have not been demonstrated. Here we purified and characterized a defensin-like peptide from the hemocytes of spiny lobster P. argus, hereafter named panusin. Structurally, panusin presents a cysteine-stabilized α/β motif, and is prone to form homodimers. Biological activity of panusin showed broad-spectrum antimicrobial activity, characterized for being strikingly salt-resistant. Panusin did not showed hemolytic activity but was demonstrated its binding capacity to different lipid membrane models, indicating amphipathicity of β-sheet core as driving force for its antimicrobial activity. Panusin is considered a new kind of arthropod defensin which share structural and biological features with beta-defensin from vertebrates. The presence of beta-defensin like peptides in crustacean might suggest the emergence of the evolutionary relationship of β-defensins from vertebrates., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published
2017
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9. Molecular, Biochemical, and Dietary Regulation Features of α-Amylase in a Carnivorous Crustacean, the Spiny Lobster Panulirus argus.

Author

Rodríguez-Viera L, Perera E, Martos-Sitcha JA, Perdomo-Morales R, Casuso A, Montero-Alejo V, García-Galano T, Martínez-Rodríguez G, and Mancera JM

Subjects
Animals, DNA, Complementary genetics, DNA, Complementary metabolism, Glycosylation, Isoenzymes biosynthesis, Isoenzymes genetics, Proteolysis, Arthropod Proteins biosynthesis, Arthropod Proteins genetics, Carnivory physiology, Gene Expression Regulation, Enzymologic physiology, Palinuridae genetics, Palinuridae metabolism, alpha-Amylases biosynthesis, alpha-Amylases genetics
Abstract

Alpha-amylases are ubiquitously distributed throughout microbials, plants and animals. It is widely accepted that omnivorous crustaceans have higher α-amylase activity and number of isoforms than carnivorous, but contradictory results have been obtained in some species, and carnivorous crustaceans have been less studied. In addition, the physiological meaning of α-amylase polymorphism in crustaceans is not well understood. In this work we studied α-amylase in a carnivorous lobster at the gene, transcript, and protein levels. It was showed that α-amylase isoenzyme composition (i.e., phenotype) in lobster determines carbohydrate digestion efficiency. Most frequent α-amylase phenotype has the lowest digestion efficiency, suggesting this is a favoured trait. We revealed that gene and intron loss have occurred in lobster α-amylase, thus lobsters express a single 1830 bp cDNA encoding a highly conserved protein with 513 amino acids. This protein gives rise to two isoenzymes in some individuals by glycosylation but not by limited proteolysis. Only the glycosylated isoenzyme could be purified by chromatography, with biochemical features similar to other animal amylases. High carbohydrate content in diet down-regulates α-amylase gene expression in lobster. However, high α-amylase activity occurs in lobster gastric juice irrespective of diet and was proposed to function as an early sensor of the carbohydrate content of diet to regulate further gene expression. We concluded that gene/isoenzyme simplicity, post-translational modifications and low Km, coupled with a tight regulation of gene expression, have arose during evolution of α-amylase in the carnivorous lobster to control excessive carbohydrate digestion in the presence of an active α-amylase.

Published
2016
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10. Trypsin isozymes in the lobster Panulirus argus (Latreille, 1804): from molecules to physiology.

Author

Perera E, Rodríguez-Viera L, Perdomo-Morales R, Montero-Alejo V, Moyano FJ, Martínez-Rodríguez G, and Mancera JM

Subjects
Animals, Electrophoresis, Polyacrylamide Gel, Isoenzymes genetics, Isoenzymes metabolism, Open Reading Frames genetics, Trypsin chemistry, Trypsin metabolism, Evolution, Molecular, Feeding Behavior physiology, Gene Expression Regulation, Enzymologic physiology, Models, Molecular, Palinuridae enzymology, Phylogeny, Trypsin genetics
Abstract

Trypsin enzymes have been studied in a wide variety of animal taxa due to their central role in protein digestion as well as in other important physiological and biotechnological processes. Crustacean trypsins exhibit a high number of isoforms. However, while differences in properties of isoenzymes are known to play important roles in regulating different physiological processes, there is little information on this aspect for decapod trypsins. The aim of this review is to integrate recent findings at the molecular level on trypsin enzymes of the spiny lobster Panulirus argus, into higher levels of organization (biochemical, organism) and to interpret those findings in relation to the feeding ecology of these crustaceans. Trypsin in lobster is a polymorphic enzyme, showing isoforms that differ in their biochemical features and catalytic efficiencies. Molecular studies suggest that polymorphism in lobster trypsins may be non-neutral. Trypsin isoenzymes are differentially regulated by dietary proteins, and it seems that some isoenzymes have undergone adaptive evolution coupled with a divergence in expression rate to increase fitness. This review highlights important but poorly studied issues in crustaceans in general, such as the relation among trypsin polymorphism, phenotypic (digestive) flexibility, digestion efficiency, and feeding ecology.

Published
2015
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11. A holistic view of dietary carbohydrate utilization in lobster: digestion, postprandial nutrient flux, and metabolism.

Author

Rodríguez-Viera L, Perera E, Casuso A, Perdomo-Morales R, Gutierrez O, Scull I, Carrillo O, Martos-Sitcha JA, García-Galano T, and Mancera JM

Subjects
Amino Acids metabolism, Animals, Digestion, Discriminant Analysis, Gastric Juice metabolism, Glucose metabolism, Hemolymph metabolism, Hydrolysis, Muscles metabolism, Proteins metabolism, Triglycerides metabolism, Dietary Carbohydrates metabolism, Palinuridae metabolism
Abstract

Crustaceans exhibit a remarkable variation in their feeding habits and food type, but most knowledge on carbohydrate digestion and utilization in this group has come from research on few species. The aim of this study was to make an integrative analysis of dietary carbohydrate utilization in the spiny lobster Panulirus argus. We used complementary methodologies such as different assessments of digestibility, activity measurements of digestive and metabolic enzymes, and post-feeding flux of nutrients and metabolites. Several carbohydrates were well digested by the lobster, but maize starch was less digestible than all other starches studied, and its inclusion in diet affected protein digestibility. Most intense hydrolysis of carbohydrates in the gastric chamber of lobster occurred between 2-6 h after ingestion and afterwards free glucose increased in hemolymph. The inclusion of wheat in diet produced a slow clearance of glucose from the gastric fluid and a gradual increase in hemolymph glucose. More intense hydrolysis of protein in the gastric chamber occurred 6-12 h after ingestion and then amino acids tended to increase in hemolymph. Triglyceride concentration in hemolymph rose earlier in wheat-fed lobsters than in lobsters fed other carbohydrates, but it decreased the most 24 h later. Analyses of metabolite levels and activities of different metabolic enzymes revealed that intermolt lobsters had a low capacity to store and use glycogen, although it was slightly higher in wheat-fed lobsters. Lobsters fed maize and rice diets increased amino acid catabolism, while wheat-fed lobsters exhibited higher utilization of fatty acids. Multivariate analysis confirmed that the type of carbohydrate ingested had a profound effect on overall metabolism. Although we found no evidence of a protein-sparing effect of dietary carbohydrate, differences in the kinetics of their digestion and absorption impacted lobster metabolism determining the fate of other nutrients.

Published
2014
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12. Lobster (Panulirus argus) hepatopancreatic trypsin isoforms and their digestion efficiency.

Author

Perera E, Rodríguez-Casariego J, Rodríguez-Viera L, Calero J, Perdomo-Morales R, and Mancera JM

Subjects
Animals, Digestive System Physiological Phenomena physiology, Proteolysis, Structure-Activity Relationship, Hepatopancreas enzymology, Palinuridae enzymology, Protein Isoforms isolation & purification, Trypsin chemistry
Abstract

It is well known that crustaceans exhibit several isoforms of trypsin in their digestive system. Although the number of known crustacean trypsin isoforms continues increasing, especially those derived from cDNA sequences, the role of particular isoenzymes in digestion remains unknown. Among invertebrates, significant advances in the understanding of the role of multiple trypsins have been made only in insects. Since it has been demonstrated that trypsin isoenzyme patterns (phenotypes) in lobster differ in digestion efficiency, we used this crustacean as a model for assessing the biochemical basis of such differences. We demonstrated that the trypsin isoform known to be present in all individuals of Panulirus argus has a high catalytic efficiency (k(cat)/K(m) ) and is the most reactive toward native proteinaceous substrates, whereas one of the isoforms present in less efficient individuals has a lower k(cat) and a lower k(cat)/K(m), and it is less competent at digesting native proteins. A fundamental question in biology is how genetic differences produce different physiological performances. This work is the first to demonstrate that trypsin phenotypic variation in crustacean protein digestion relies on the biochemical properties of the different isoforms. Results are relevant for understanding trypsin polymorphism and protein digestion in lobster.

Published
2012
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13. Dietary protein quality differentially regulates trypsin enzymes at the secretion and transcription level in Panulirus argus by distinct signaling pathways.

Author

Perera E, Rodríguez-Viera L, Rodríguez-Casariego J, Fraga I, Carrillo O, Martínez-Rodríguez G, and Mancera JM

Subjects
Animals, Proteolysis, Signal Transduction, Transcriptional Activation, Trypsin genetics, Dietary Proteins metabolism, Palinuridae metabolism, Trypsin metabolism
Abstract

The effects of pelleted diets with different protein composition (fish, squid or soybean meals as main protein sources) on trypsin secretion and expression were studied in the lobster Panulirus argus. Trypsin secretion was shown to be maximal 4 h after ingestion. At this time, fish- and squid-based diets induced trypsin secretion, as well as up-regulation of the major trypsin isoform at the transcription level. While fish- and squid-based diets elicited a prandial response, soybean-based diet failed to stimulate the digestive gland to secrete trypsin into the gastric fluid or induce trypsin expression above the levels observed in fasting lobsters. In vitro assays showed that intact proteins rather than protein hydrolysates stimulate trypsin secretion in the lobster. However, the signal for trypsin transcription appears to be different to that for secretion and is probably mediated by the appearance of free amino acids in the digestive gland, suggesting a stepwise regulation of trypsin enzymes during digestion. We conclude that trypsin enzymes in P. argus are regulated at the transcription and secretion level by the quality of dietary proteins through two distinct signaling pathways. Our results indicate that protein digestion efficiency in spiny lobsters can be improved by selecting appropriated protein sources. However, other factors like the poor solubility of dietary proteins in dry diets could hamper further enhancement of digestion efficiency.

Published
2012
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