Iron-Binding Properties, Amino Acid Composition, and Structure of Muscle Tissue Peptides from in vitro Digestion of Different Meat Sources

Iron-Binding Properties, Amino Acid Composition, and Structure of Muscle Tissue Peptides from in vitro Digestion of Different Meat Sources

Background: The enhancing effect of meat on nonheme iron bioavailability in humans is thought to be due to the release of low‐molecular‐weight (LMW) iron‐binding peptides during digestion. Objective: To better characterize the LMW iron‐binding peptides from meat digests. Methods: Cooked beef, chicke...

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Bibliographic Details
Published in:Journal of food science Vol. 72; no. 1; pp. S019 - S029
Main Authors: Storcksdieck, S., Bonsmann, Genannt, Hurrell, R. F.
Format: Journal Article
Language:English
Published: Malden, USA Blackwell Publishing Inc 01-01-2007
Institute of Food Technologists
Wiley Subscription Services, Inc
Subjects:
Amino acids
Amino Acids - analysis
Animals
Binding sites
Biological and medical sciences
Biological Availability
Cattle
Chickens
Digestion
Filtration
Food industries
Fundamental and applied biological sciences. Psychology
Gadus morhua
Humans
in vitro digestion
Intestinal Absorption
iron
Iron, Dietary - pharmacokinetics
iron-binding peptides
Iron-Binding Proteins - pharmacology
Meat
Meat - analysis
Meat and meat product industries
meat factor
Molecular Weight
Muscle Proteins - metabolism
Muscle, Skeletal - metabolism
Peptides
Sheep
Solubility
Species Specificity
Studies
Swine
Tissues
Binding
Peptides
Meat product
Iron
Digestion
Properties
In vitro
Meat
meat factor
iron-binding peptides
Tissue
Chemical composition
Muscle
Structure
in vitro digestion
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Summary:Background: The enhancing effect of meat on nonheme iron bioavailability in humans is thought to be due to the release of low‐molecular‐weight (LMW) iron‐binding peptides during digestion. Objective: To better characterize the LMW iron‐binding peptides from meat digests. Methods: Cooked beef, chicken, cod, lamb, and pork myofibrillar or sarcoplasmic protein extracts, casein, and egg albumin were digested in vitro with pepsin or pepsin/pancreatin. Ultrafiltrates were analyzed for N and iron and further characterized by gel filtration with added 59Fe, amino acid analysis, and LC‐MS. Results: 84% to 98% of total iron in enzymic digests was associated with soluble LMW peptides (< 10 kDa) of the myofibrillar proteins compared to only 2% to 20% in the corresponding sarcoplasmic protein digests. Pepsin digestion alone of the myobrillar proteins generated > 80% soluble LMW iron, compared to < 5% with casein and egg albumin. Iron‐binding peptides from myofibrillar protein with an estimated 2 kDa molecular mass were separated by gel filtration. Peptides in this fraction were enriched in aspartic and glutamic acid residues and included potential peptide fragments of myosin. Conclusion: LMW (< 10 kDa) peptides in enzyme digests of myofibrillar proteins were the major facilitators of iron solubility. Unlike with casein, egg albumin, and most sarcoplasmic proteins, these LMW peptides were generated on pepsin digestion. One group of iron‐binding peptides had a mass of approximately 2 kDa and was enriched in glutamic and aspartic acids. Such early generation of a multitude of LMW iron‐binding peptides could explain the enhancing effect of muscle tissue on iron absorption.
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ISSN:0022-1147
1750-3841
DOI:10.1111/j.1750-3841.2006.00229.x