Crescimento e metabolismo do nitrogênio em juvenis de trachinotus marginatus alimentados com diferentes níveis proteicos

O objetivo deste trabalho foi avaliar o crescimento e alterações no metabolismo do nitrogênio, além da composição do fígado e do músculo de juvenis de pampo Trachinotus marginatus alimentados com 43, 54 ou 64% de proteína bruta (PB43, PB54 e PB64, respectivamente). Grupos de 10 juvenis (1,47±0,14g) foram estocados em nove tanques de 50L, em sistema de recirculação de água marinha, durante 55 dias, alimentados quatro vezes ao dia com as rações pré-definidas. O ganho em peso, a taxa de crescimento específico e a conversão alimentar não apresentaram diferença significativa (P>0,05). Contudo, o acréscimo de proteína consumida aumentou o índice hepatossomático e a taxa de excreção de amônia pós-prandial, bem como diminuiu a retenção proteica. Os peixes alimentados com a dieta PB43 apresentaram menor concentração da transaminase glutâmico oxalacética hepática, além de menor concentração de triglicerídeos no músculo e fígado (P0,05), excetuando o maior teor de lipídios da carcaça no tratamento PB43. Concluímos que a melhor utilização da proteína por juvenis de pampo é observada quando eles são alimentados com uma dieta contendo 43% de proteína.The experiment aimed to evaluate the growth, the nitrogen metabolism and liver and muscle composition of juvenile pompano Trachinotus marginatus fed with different protein levels (PB43, PB54, PB64). Groups of 10 juveniles (1.47±0.14g) were stocked in nine tanks with 50L in a marine recirculating aquaculture system during 55 days. Fish were fed four times a day. The weight gain, specific growth rate and feed conversion rate did not present significant differences (P>0.05). However, the increase in protein consumption augmented the hepatosomatic index, the pos prandial ammonia excretion rate and reduced the protein efficiency rate. Fish fed with PB43 presented lower hepatic glutamic oxaloacetic transaminase and lower concentration of triglycerides in muscle and liver (P0.05), with the exception of the lipid content in fish carcass fed with PB43. It is concluded that the better protein utilization in juvenile pompano is observed when they are fed with 43% protein

Nucleic acids and growth of larval and early juvenile spider crab, Hyas araneus

The spider crab Hyas araneus L. was reared in the laboratory from hatching of zoea I (ZI) through the first juvenile instar (CI). Within a given moult cycle, individuals of the same age were sampled in intervals of two (ZI, ZII, CI) or 3d (megalopa) for analysis of dry weight, carbon (C), nitrogen (N), hydrogen (H), protein, DNA and RNA. Lipid was calculated from C. Biomass, growth rate and nucleic acid contents showed high variability during each moult cycle and between instars. Instantaneous growth rates of carbon and nitrogen were high in postmoult and intermoult, and low in the premoult periods of each moulting cycle. A shift was observed from high rates of lipid accumulation in the postmoult and intermoult stages to proportionally increasing protein accumulation during late premoult (ZI), or throughout a major part of the remaining moult cycle (in all other instars). DNA was accumulated throughout the ZI and ZII instars, cut it decreased in the late premoult megalopa. It increased again from late intermoult through intermediate premoult in the juveniles. RNA increased continuously during the ZI and ZII, and it decreased in the megalopa, almost to level that had been found immediately after hatching. In juveniles, variation in RNA followed it followed closely those in DNA. Cell multiplication (expressed by DNA increase) dominated over increase in cell size (defined by the C:DNA ratio) during the zoeal instars and in postmoult through early intermoult in the megalopa and CI. When specific (C-related) RNA values and DNA/RNA ratios were compared with instantaneous growth rates in C and N, no general correspondence was detected. The only significant relationship between specific RNA values and instantaneous C or N growth rates was found in the megalopa. The same held for the relationship between the RNA/DNA ratio and growth. Here, in addition to the megalopa, a correspondence with C growth was also found in the CI instar. Our results suggest that variation in nucleic acids may provide useful insights into mechanisms of growth on the cellular level (cell multiplication vs. cell enlargement), however, lack of general correlation with variation in growth rates of Hyas araneus larvae shows that the use of nucleic acids as a measure of growth is probably based upon too simplistic assumptions and hence, does not yield reliable predictions

Hepatocyte nuclear factor 4alpha transactivates the mitochondrial alanine aminotransferase gene in the kidney of Sparus aurata

Alanine aminotransferase (ALT) plays an important role in amino acid metabolism and gluconeogenesis. The preference of carnivorous fish for protein amino acids instead of carbohydrates as a source of energy lead us to study the transcriptional regulation of the mitochondrial ALT (mALT) gene and to characterize the enzyme kinetics and modulation of mALT expression in the kidney of gilthead sea bream (Sparus aurata) under different nutritional and hormonal conditions. 5′-Deletion analysis of mALT promoter in transiently transfected HEK293 cells, site-directed mutagenesis and electrophoretic mobility shift assays allowed us to identify HNF4α as a new factor involved in the transcriptional regulation of mALT expression. Quantitative RT-PCR assays showed that starvation and the administration of streptozotocin (STZ) decreased HNF4α levels in the kidney of S. aurata, leading to the downregulation of mALT transcription. Analysis of the tissue distribution showed that kidney, liver, and intestine were the tissues with higher mALT and HNF4α expression. Kinetic analysis indicates that mALT enzyme is more efficient in catalyzing the conversion of L-alanine to pyruvate than the reverse reaction. From these results, we conclude that HNF4α transactivates the mALT promoter and that the low levels of mALT expression found in the kidney of starved and STZ-treated fish result from a decreased expression of HNF4α. Our findings suggest that the mALT isoenzyme plays a major role in oxidazing dietary amino acids, and points to ALT as a target for a biotechnological action to spare protein and optimize the use of dietary nutrients for fish culture