Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.8 (phytase)
 1,997 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Phosphate utilization by fish is an important issue because of its critical roles in fish growth and aquatic environmental pollution. High dietary phosphorus (P) levels typically decrease the efficiency of P utilization, thereby increasing the amount of P excreted as metabolic waste in effluents emanating from rainbow trout aquaculture. In mammals, vitamin D3 is a known regulator of P utilization but in fish, its regulatory role is unclear. Moreover, the effects of dietary P and vitamin D3 on expression of enzymatic and transport systems potentially involved in phosphate utilization are little known. We therefore monitored production of effluent P, levels of plasma vitamin D3 metabolites, as well as expression of phosphatases and the sodium phosphate cotransporter (NaPi2) in trout fed semipu diets that varied in dietary P and vitamin D3 levels. Mean soluble P concentrations varied markedly with dietary P but not with vitamin D3, and constituted 40-70% of total effluent P production by trout. Particulate P concentrations accounted for 25-50% of effluent P production, but did not vary with dietary P or vitamin D3. P in settleable wastes accounted for <10% of effluent P. The stronger effect of dietary P on effluent P levels is paralleled by its striking effects on phosphatases and NaPi2. The mRNA abundance of the intestinal and renal sodium phosphate transporters increased in fish fed low dietary P; vitamin D3 had no effect. Low-P diets reduced plasma phosphate concentrations. Intracellular phytase activity increased but brushborder alkaline phosphatase activity decreased in the intestine, pyloric caeca, and gills of trout fed diets containing low dietary P. Vitamin D3 had no effect on enzyme activities. Moreover, plasma concentrations of 25-hydroxyvitamin D3 and of 1,25-dihydroxyvitamin D3 were unaffected by dietary P and vitamin D3 levels. The major regulator of P metabolism, and ultimately of levels of P in the effluent from trout culture, is dietary P.
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PMID:Dietary P regulates phosphate transporter expression, phosphatase activity, and effluent P partitioning in trout culture. 1285 80

The objective was to determine the effect of calcium (Ca), total phosphorus (Ptot), cholecalciferol, and phytase level in the diet on the performance, tibia ash percentage, and Ca and P retention in broilers until slaughter age. Broilers were randomly assigned to 12 treatments, each with 6 replicates, comprising 3 diets differing in Ca and P level: 1) normal Ca and Ptot level (NN); 2) normal Ca and low Ptot level (NL), 3) low Ca and Ptot level (LL). Broilers were also given 2 levels of cholecalciferol and 2 levels of phytase. The normal levels of Ca and Ptot for the starter, grower, and finisher phases were 0.90, 0.82, 0.74% and 0.67, 0.62, 0.57%, respectively. The low Ca and Ptot levels for the 3 phases were 0.67, 0.60, 0.52% and 0.57, 0.51, 0.46%, respectively. Broilers of the NL treatment obtained the lowest BW, whereas BW of the NN and LL groups were comparable. Cholecalciferol significantly affected the BW, with differences up to 2.6 and 1.2% for the starter and grower phases, respectively. The highest cholecalciferol effect was found in combination with the NN treatment. The percentage of retained Ca increased from 33% to 41% and 48% when the imbalanced diet was replaced by the NN and LL balanced diets, respectively. P release from phytate was 64 and 67% for the NL and LL diets, respectively. Phytase and cholecalciferol had significantly favorable effects on retention values but these effects were dependent on Ca and Ptot levels and their ratio. In conclusion, both diets with the balanced Ca/Ptot ratio resulted in the best performance, highest tibia ash percentage and P release from phytate. A reduction of the Aviagen (2009) recommended P requirements by 25 to 30% and Ca by 15 to 20% over the various phases did not negatively affect performance, bone development, and improved Ca and Ptot retention. The effects of supplementing cholecalciferol and phytase were additive but not significant and no synergism between both was present.
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PMID:Consequences of phosphorus interactions with calcium, phytase, and cholecalciferol on zootechnical performance and mineral retention in broiler chickens. 2299 38