TOWARDS DETERMINATION OF THE THREONINE REQUIREMENT OF YEARLING HORSES FED VARYING DIETARY COMPOSITIONS USING THE INDICATOR AMINO ACID OXIDATION METHOD

Smith, Kelsey M.

01 January 2016

The amino acid requirements of growing horses are currently unknown, and studies suggest that threonine is a limiting amino acid in common horse diets. Thus, the objective of this study was to determine the threonine requirement of growing horses fed two different forage to concentrate ratios using the indicator amino acid oxidation method. The study consisted of a high concentrate phase (HC; 60% concentrate and 40% forage) and a high forage phase (HF; 25% concentrate and 75% forage). Within each phase, 6 female yearling Thoroughbred horses were randomly assigned each of 6 dietary treatments in a 6 x 6 Latin square design. All 6 treatments were identical, apart from varying equimolar ratios of threonine to glutamate. After 6 days of adaptation, blood samples were collected before and after the morning meal for plasma urea nitrogen (PUN) and amino acid analysis. On day 7, horses underwent the IAAO protocol, during which regular breath and blood samples were collected. Phenylalanine flux, oxidation, non-oxidative disposal, and release from body protein, as well as total carbon dioxide production were calculated using plateau enrichment of samples. There was a significant linear effect of threonine intake on plasma threonine concentrations, and PUN had a significant linear response during the HC phase. There was no significant effect of treatment on phenylalanine oxidation during either phase (P ≥ 0.05). It is unlikely that threonine was limiting in the experimental diets.

IAAO

threonine

horse

amino acid requirement

yearling

Other Animal Sciences

Untersuchungen zum leistungsabhängigen Bedarf an Lysin, Methionin/Cystin und Threonin von Nil-Tilapien auf Grundlage der Aminosäure-Wirksamkeit in ausgewählten Proteinträgermischungen / Investigation into the performance dependent requirement of lysine, methionine/cystine and threonine of Nile tilapia on the basis of the amino acid efficiency in selected mixtures of protein carriers

Benkendorff, Kay

12 November 2004

No description available.

630 Landwirtschaft, Veterinärmedizin

YFP 000 Tierernährung

Agricultural Sciences

Aminosäurebedarf

Aminosäure-Wirksamkeit

Stickstoff-Verwertungsmodell

Nil-Tilapien

Amino acid requirement

amino acid efficiency

Nitrogen-utilization model

Nile tilapia

48.61 Tierernährung

Tierfutter

48.68 Aquakultur

Sulphur Amino Acid Requirement and Metabolism in the Total Parenteral Nutrition (TPN) Fed Human Neonate

Courtney-Martin, Glenda

23 September 2009

Except for tyrosine, the amino acid requirement of parenterally fed (PN) human neonates has not been derived. Methionine and cysteine are indispensable and dispensable sulphur amino acids respectively. Cysteine is synthesized from methionine. Cysteine is unstable in solution, and is left out or added in very small amounts to amino acid solutions. Methionine is added to compensate for the lack of cysteine, assuming that the neonate will convert methionine to cysteine to meet the body’s metabolic demand. Methionine is hepatotoxic and there is evidence that the neonate has limited ability for its conversion to cysteine. To determine the requirement of the neonate for methionine, PN-fed, stable, post-surgical neonates received graded intakes of methionine. The mean methionine requirement was estimated to be 49 mg.kg-1.day-1, which is 48 to 90% of the methionine content of current commercial amino acid solutions. Because cysteine is the rate limiting substrate for glutathione (GSH) synthesis and current methods of determining amino acid requirement measure requirement for protein synthesis, SAA requirements for maintenance of GSH status was deleniated in healthy adult males and in PN-fed human neonates. GSH kinetics was measured in healthy men receiving the mean methionine requirement and graded intakes of cysteine. GSH synthesis did not change with the addition of cysteine. Additionally, PN-fed post-surgical neonates recieved a methionine-adequate cysteine-free PN followed by cysteine supplemented PN for two 3-day periods and GSH kinetics measured on days 3 and 6. There was no change in GSH synthesis in response to cysteine supplementation. It is concluded that the PN-fed human neonate is capable of synthesizing enough cysteine from methionine not only for protein synthesis but for GSH synthesis. For both healthy men and stable post-surgical neonates, the requirement for GSH synthesis is met at the sulphur amino acid requirement derived using the indicator amino acid technique

sulphur amino acids

methionine

cysteine

glutathione

neonate

methionine requirement

parenteral nutrition

antioxidant

amino acid requirement

methionine requirement

cysteine metabolism

methionine metabolism

cystathionine

homocysteine

urinary sulphate

breakpoint analysis

0570

Sulphur Amino Acid Requirement and Metabolism in the Total Parenteral Nutrition (TPN) Fed Human Neonate

Courtney-Martin, Glenda

23 September 2009

Except for tyrosine, the amino acid requirement of parenterally fed (PN) human neonates has not been derived. Methionine and cysteine are indispensable and dispensable sulphur amino acids respectively. Cysteine is synthesized from methionine. Cysteine is unstable in solution, and is left out or added in very small amounts to amino acid solutions. Methionine is added to compensate for the lack of cysteine, assuming that the neonate will convert methionine to cysteine to meet the body’s metabolic demand. Methionine is hepatotoxic and there is evidence that the neonate has limited ability for its conversion to cysteine. To determine the requirement of the neonate for methionine, PN-fed, stable, post-surgical neonates received graded intakes of methionine. The mean methionine requirement was estimated to be 49 mg.kg-1.day-1, which is 48 to 90% of the methionine content of current commercial amino acid solutions. Because cysteine is the rate limiting substrate for glutathione (GSH) synthesis and current methods of determining amino acid requirement measure requirement for protein synthesis, SAA requirements for maintenance of GSH status was deleniated in healthy adult males and in PN-fed human neonates. GSH kinetics was measured in healthy men receiving the mean methionine requirement and graded intakes of cysteine. GSH synthesis did not change with the addition of cysteine. Additionally, PN-fed post-surgical neonates recieved a methionine-adequate cysteine-free PN followed by cysteine supplemented PN for two 3-day periods and GSH kinetics measured on days 3 and 6. There was no change in GSH synthesis in response to cysteine supplementation. It is concluded that the PN-fed human neonate is capable of synthesizing enough cysteine from methionine not only for protein synthesis but for GSH synthesis. For both healthy men and stable post-surgical neonates, the requirement for GSH synthesis is met at the sulphur amino acid requirement derived using the indicator amino acid technique

sulphur amino acids

methionine

cysteine

glutathione

neonate

methionine requirement

parenteral nutrition

antioxidant

amino acid requirement

methionine requirement

cysteine metabolism

methionine metabolism

cystathionine

homocysteine

urinary sulphate

breakpoint analysis

0570