Your search keyword '"Ditlecadet, Delphine"' showing total 9 results

1. Isolation and identification of a novel salmon gill poxvirus variant from Atlantic salmon in Eastern Canada.

Author

LeBlanc, Francis, Ditlecadet, Delphine, Arseneau, Jean‐René, Steeves, Royce, Boston, Linda, Boudreau, Pascal, and Gagné, Nellie

Subjects

*SALMON, *GILLS, *POXVIRUS diseases, *FISH diseases, *POLYMERASE chain reaction, *TRANSMISSION electron microscopy

Abstract

The article discusses a research which described a novel salmon gill poxvirus (SGPV) variant among Atlantic salmon in Eastern Canada. It attempts to isolate and identify the variant. It discusses the results of disease testing, quantitative polymerase chain reaction and transmission electron microscopy.

Published

2019

2. Glycerol-3-phosphatase and not lipid recycling is the primary pathway in the accumulation of high concentrations of glycerol in rainbow smelt (Osmerus mordax).

Author

Ditlecadet, Delphine and Dr iedzic, William R.

Abstract

Rainbow smelt is a small fish that accumulates glycerol in winter as a cryoprotectant when the animal is in seawater. Glycerol is synthesized in liver from different substrates that all lead to the formation of glycerol-3-phosphate (G3P). This study assesses whether glycerol is produced by a direct dephosphorylation of G3P by a phosphatase (G3Pase) or by a cycling through the glycerolipid pool followed by lipolysis. Foremost, concentrations of on-board glycerolipids and activity of G3Pase and of enzymes involved in lipid metabolism were measured in smelt liver over the glycerol cycle. Concentrations of on-board glycerolipids did not change over the cycle and were too low to significantly contribute directly to glycerol production but activities of enzymes involved in both potential pathways were up-regulated at the onset of glycerol accumulation. A second experiment conducted with isolated hepatic cells producing glycerol showed 1) that on-board glycerolipids were not sufficient to produce the glycerol released even though phospholipids could account for up to 17% of it, 2) that carbon cycling through the glycerolipid pool was not involved as glycerol was produced at similar rates following inhibition of this pathway, and 3) that G3Pase activity measured was sufficient to allow the synthesis of glycerol at the rate observed. These results are the first to clearly support G3Pase as the metabolic step leading to glycerol production in rainbow smelt and the first to provide strong support for a G3Pase in any animal species [ABSTRACT FROM AUTHOR]

Published

2013

3. Mechanisms of protein degradation in mantle muscle and proposed gill remodeling in starved Sepia officinalis.

Author

Lamarre, Simon G., Ditlecadet, Delphine, McKenzie, David J., Bonnaud, Laure, and Driedzic, William R.

Abstract

Cephalopods have relatively high rates of protein synthesis compared to rates of protein degradation, along with minimal carbohydrate and lipid reserves. During food deprivation on board protein is catabolized as a metabolic fuel. The aim of the current study was to assess whether biochemical indices of protein synthesis and proteolytic mechanisms were altered in cuttlefish, Sepia officinalis, starved for 7 days. In mantle muscle, food deprivation is associated with a decrease in protein synthesis, as indicated by a decrease in the total RNA level and dephosphorylation of key signaling molecules, such as the eukaryote binding protein, 4E-BP1 (regulator of translation) and Akt. The ubiquitinationproteasome system (UPS) is activated as shown by an increase in the levels of proteasome α-subunit mRNA, polyubiquitinated protein, and polyubiquitin mRNA. As well, cathepsin activity levels are increased, suggesting increased proteolysis through the lysosomal pathway. Together, these mechanisms could supply amino acids as metabolic fuels. In gill, the situation is quite different. It appears that during the first stages of starvation, both protein synthesis and protein degradation are enhanced in gill. This is based upon increased phosphorylation of 4E-BP1 and enhanced levels of UPS indicators, especially 20S proteasome activity and polyubiquitin mRNA. It is proposed that an increased protein turnover is related to gill remodeling perhaps to retain essential hemolymph-borne compounds. [ABSTRACT FROM AUTHOR]

Published

2012

4. Glycerol loss to water exceeds glycerol catabolism via glycerol kinase in freeze-resistant rainbow smelt (Osmerus mordax).

Author

Ditlecadet, Delphine, Short, Connie E., and Driedzic, William R.

Subjects

*RAINBOW smelt, *OSMERUS, *GLYCERIN, *METABOLISM, *ORGANIC synthesis, *GLUCONEOGENESIS

Abstract

Rainbow smelt accumulate high amounts of glycerol in winter. In smelt, there is a predictable profile of plasma glycerol levels that starts to increase in November (<5 μmol/ml), peaks in mid-February (>200 μmol/ml), and thereafter decreases to reach the initial levels in the beginning of May. The aim of this study was to investigate the respective role of the two main mechanisms that might be involved in glycerol clearance from mid-February: 1) breakdown of glycerol to glycerol-3-phosphate through the action of the glycerol kinase (GK) and 2) direct loss toward the environment. Over the entire glycerol cycle, loss to water represents a daily loss of ~10% of the total glycerol content of fish. GK activities were very low in all tissues investigated and likely have a minor quantitative role in the glycerol cycle. These results suggest that glycerol levels are dictated by the rate of glycerol synthesis (accelerated and deactivated during the accumulation and decrease stages, respectively). Although not important in glycerol clearance, GK in liver might have an important metabolic function for other purposes, such as gluconeogenesis, as evidenced by the significant increase of activity at the end of the cycle. [ABSTRACT FROM AUTHOR]

Published

2011

5. Unusual duplication of the insulin-like receptor in the crustacean Daphnia pulex.

Author

Boucher, Philippe, Ditlecadet, Delphine, Dubé, Caroline, and Dufresne, France

Subjects

*INSULIN, *CARBOHYDRATE metabolism, *GROWTH regulators, *VERTEBRATES, *PEPTIDES, *INVERTEBRATES, *INSULIN receptors

Abstract

Background: The insulin signaling pathway (ISP) has a key role in major physiological events like carbohydrate metabolism and growth regulation. The ISP has been well described in vertebrates and in a few invertebrate model organisms but remains largely unexplored in non-model invertebrates. This study is the first detailed genomic study of this pathway in a crustacean species, Daphnia pulex. Results: The Daphnia pulex draft genome sequence assembly was scanned for major components of the ISP with a special attention to the insulin-like receptor. Twenty three putative genes are reported. The pathway appears to be generally well conserved as genes found in other invertebrates are present. Major findings include a lower number of insulin-like peptides in Daphnia as compared to other invertebrates and the presence of multiple insulin-like receptors (InR), with four genes as opposed to a single one in other invertebrates. Genes encoding for the Dappu_InR are likely the result of three duplication events and bear some unusual features. Dappu_InR-4 has undergone extensive evolutionary divergence and lacks the conserved site of the catalytic domain of the receptor tyrosine kinase. Dappu_InR-1 has a large insert and lacks the transmembranal domain in the β-subunit. This domain is also absent in Dappu_InR-3. Dappu_InR-2 is characterized by the absence of the cystein-rich region. Real-time q-PCR confirmed the expression of all four receptors. EST analyses of cDNA libraries revealed that the four receptors were differently expressed under various conditions. Conclusions: Duplications of the insulin receptor genes might represent an important evolutionary innovation in Daphnia as they are known to exhibit extensive phenotypic plasticity in body size and in the size of defensive structures in response to predation. [ABSTRACT FROM AUTHOR]

Published

2010

6. Applying microsatellites in two commercial strains of Arctic charr (Salvelinus alpinus): Potential for a selective breeding program

Author

Ditlecadet, Delphine, Dufresne, France, Le François, Nathalie Rose, and Blier, Pierre Ulrich

Subjects

*MICROSATELLITE repeats, *BREEDING, *ARCTIC char, *CHAR fish

Abstract

Abstract: Genetic variability was estimated at eight microsatellite loci in two strains of Arctic charr (Salvelinus alpinus) available in Québec (Buteux and Fraser) to evaluate their potential in a selective breeding program. Both strains showed restricted genetic diversity with a mean number of alleles per locus of 6.28 and 4.28 for the Buteux and the Fraser strains, respectively. The two strains had significantly different allelic and genotypic distribution Genetic variability was lower in the Quebec domesticated strains than in wild populations of the same species (Kruskall–Wallis H =15.227; df =4 and P =0.0042) and in other broodstock of the same strain (Kruskall–Wallis H =12.60; df =4 and P =0.0134). The Fraser strain appeared more inbred than the Buteux with mean relatedness values (r-value) of −0.082 and −0.160, respectively. Surprisingly even with a restricted genetic diversity, r-value estimates showed that a high percentage of all possible crosses are not a risk for inbreeding in both strains (61% and 71% for the Fraser and the Buteux strains, respectively). These results have shown that genetic variability assessed by microsatellites was low in both strains. However, genotyping microsatellites could minimize inbreeding risks by crossing most genetically distinct breeders. [Copyright &y& Elsevier]

Published

2006

7. Characterization of the early-stages of the wolffish hybrid Anarhichas minor x Anarhichas lupus: conservation and aquaculture applications.

Author

Gaudreau, Catherine M., Le François, Nathalie R., Ditlecadet, Delphine, Tveiten, Helge, and Blier, Pierre U.

Subjects

*WOLFFISHES, *ANARHICHAS, *AQUACULTURE, *GENETIC stock identification of fishes, *ENDANGERED species

Abstract

This is the first report of early-life developmental characteristics (coloration pattern, growth and survival) and genetic identification of the wolffish interspecific hybrid between Anarhichas minor and A. lupus, both endangered species in Canadian coastal water and of interest for cold-water aquaculture diversification. A first growth trial at 8 °C featuring pure strains A. minor and the hybrid A. minor × A. lupus in triplicates was conducted in 2006 during the period from 0 to 140 days post-hatch. A second growth trial was runned in 2007 featuring A. minor, A. lupus and the reciprocal hybrids A. minor × A. lupus and A. lupus × A. minor. Egg development indicators and early-hatching characteristics are reported. [ABSTRACT FROM AUTHOR]

Published

2009

8. Ontogenetic effects of diet during early development on growth performance, myosin mRNA expression and metabolic enzyme activity in Atlantic cod juveniles reared at different salinities

Author

Koedijk, Roland M., Le François, Nathalie R., Blier, Pierre U., Foss, Atle, Folkvord, Arild, Ditlecadet, Delphine, Lamarre, Simon G., Stefansson, Sigurd O., and Imsland, Albert K.

Subjects

*ONTOGENY, *DIET, *GROWTH, *MYOSIN, *MESSENGER RNA, *ATLANTIC cod, *SALINITY, *MALATE dehydrogenase

Abstract

Abstract: This study investigates the effect of diet during early development on growth and metabolic capacity in the juvenile stage of Atlantic cod. Growth in three groups of Atlantic cod juveniles (10–70g) was measured at two salinities (15‰ or 32‰) in combination with two temperatures (10°C or 14°C). Groups of cod from a single egg batch differed by having been fed with rotifers (R) or natural zooplankton (Z) during the first 36days post hatch. A third group was fed zooplankton from 1 to 22dph, after which diet changed to rotifers from 22 to 36dph (ZRZ). All fish were weaned at 36dph. Juveniles from the Z and ZRZ groups performed equally well under all experimental conditions, but fish that had received rotifers as a larval diet showed overall significantly lower growth rates. Growth was significantly enhanced by reduced salinity. Metabolic enzyme activity and relative myosin mRNA expression levels were not affected by larval diet. Muscle AAT and MDH were affected by salinity while these enzymes in liver tissue were affected by the interaction between salinity and temperature. Metabolic enzymes were stronger correlated with fish size than growth rates. Our results indicate that larval diet has a pronounced effect on juvenile growth rates under varying environmental conditions as optimal larval diet (zooplankton) increased juvenile growth rates significantly. Metabolic enzyme activity and relative myosin mRNA expression were not affected by larval history, which suggests that the persisting juvenile growth difference is not a result of differing metabolic capacity. [Copyright &y& Elsevier]

Published

2010

9. Myosin expression levels and enzyme activity in juvenile spotted wolffish (Anarhichas minor) muscle: a method for monitoring growth rates.

Author

Imsland, Albert K., Le François, Nathalie R., Lamarre, Simon G., Ditlecadet, Delphine, Sigurðsson, Sindri, and Foss, Atle

Subjects

*MYOSIN, *ANARHICHAS, *WOLFFISHES, *GENE expression, *BIOPSY, *POLYMERASE chain reaction, *GROWTH rate, *FISH farming

Abstract

The activity of glycolytic enzymes and the expression levels of myosin RNA was monitored in the white muscle of juvenile spotted wolffish (Anarhichas minor) reared under different temperature regimes. A group of individually tagged juvenile spotted wolffish was reared for 6 months at 4, 6, 8, and 12 °C. After the rearing trial, biopsy samples were taken from white muscle of each individual and the relationship between individual growth, enzyme activity, and myosin expression was investigated. A positive relationship between the activities of two glycolytic enzymes (pyruvate kinase and lactate dehydrogenase) and individual growth rate was observed. Using real-time polymerase chain reaction (PCR) and specially developed primers for myosin mRNA and 18S rRNA for spotted wolffish, we were able to detect differences in the relative myosin expression between experimental groups, and a positive relationship between myosin expression and specific growth rates was observed. These methods may be useful as an indicator of growth rate in wild fish and a fast and reliable indicator of growth potential under culture conditions. The method also has the potential to measure differences in white muscle synthesis in fish reared under variable environmental parameters and during different life history stages. [ABSTRACT FROM AUTHOR]

Published

2006