Manoel Garcia Neto scite author profile

Manoel Garcia Neto

2Publications

50Citation Statements Received

25Citation Statements Given

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Affiliations

Universidade Estadual Paulista (Unesp), Fundação de Apoio à Universidade Federal de São Paulo

Publications

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Determination of the betaine content of feed ingredients using high‐performance liquid chromatography

et al. 2002

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A series of studies was conducted to establish a methodology for the accurate and efficient determination of betaine in different feed ingredients. The final methodology involves an extraction step in which the feed sample is heated for 3 h in a methanolic KOH solution using a Goldfisch apparatus. Impurities are removed by the addition of activated charcoal and concentrated (36%) HCl. After centrifugation the extractant is passed through a strong cation exchange resin (Dowex 50W-X12, H þ ). The betaine retained in the column is eluted with 1.5 N HCl. A 2 ml aliquot of the elute is air dried and reconstituted with 1 ml of deionised water. HPLC separation with a cation exchange column (Partisil SCX-10) is used for the separation of betaine from other compounds. The mobile phase is kept constant at 50 mM KH 2 PO 4 in water, and eluted compounds are detected by UV absorbance (200 nm). The flow rate is maintained at 1.5 ml min À1 . This assay is very accurate over the range of betaine concentrations from 15 to 650 mg ml À1 , with a lower detection limit in feeds of approximately 500 mg g À1 when 4 g of sample is extracted. Recovery assays done with standard betaine hydrochloride and hard red wheat resulted in a consistent recovery of 80%. Betaine content was quantified in several feed ingredients, including alfalfa (1.77 mg kg À1 ), wheat (3.96 mg kg À1 ), wheat middlings (4.98 mg kg À1 ) and poultry meal (0.77 mg kg À1 ). Betaine in corn and soybean meal was not detectable by this method, even when 16 g of sample was used (<125 mg kg À1 ). Betaine present in several feed ingredients should influence choline supplementation to animal feeds and may have implications for human health.

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Influence of dietary protein level on the broiler chicken's response to methionine and betaine supplements

2000

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Two experiments were conducted to compare broiler chicken responses to methionine and betaine supplements when fed diets with low protein and relatively high metabolizable energy levels (17%, 3.3 kcal/g) or moderate protein and lower metabolizable energy levels (24%, 3.0 kcal/g), resulting in different levels of carcass fat. In Experiment 1, the basal diets were formulated with corn, soybean meal, poultry by-product meal, and poultry oil. In Experiment 2, glucose monohydrate was also added, so that identical amino acid profiles could be maintained in the 17 and 24% protein diets. On average, feeding the 17 vs. 24% protein diet decreased 21-d body weight gain by 20%, increased feed conversion ratio (FCR) by 13%, and increased abdominal fat pad weight by 104%. Methionine and betaine supplements improved the performance of chicks fed the 24% protein diet in both experiments, as indicated by body weight gain and FCR. Only supplementary methionine increased performance of chicks fed 17% protein diets, and then only in Experiment 2. Neither methionine nor betaine decreased abdominal fat pad size in either experiment. Methionine supplementation decreased relative liver size and increased breast muscle protein. Both methionine and betaine increased sample feather weight, but when expressed as a percentage of body weight, no significant differences were detected. It is concluded that increasing carcass fat by manipulating percentage dietary protein level or amino acid balance does not influence betaine's activity as a lipotropic agent.

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