Absorption of carnosine and methionylglycine by sheep ruminal and omasal epithelia

Carnosine and methionylglycine (using ³⁵S-methionylglycine as a representative marker) absorption and transfer across ruminal and omasal epithelia collected from four (carnosine) and seven (methionylglycine) sheep were studied using parabiotic chambers that were repeatedly sampled over a 240-min inc...

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Bibliographic Details
Main Author: Matthews, James C.
Other Authors: Animal Science
Format: Others
Language:en
Published: Virginia Tech 2014
Subjects:
Online Access:http://hdl.handle.net/10919/41689
http://scholar.lib.vt.edu/theses/available/etd-03172010-020424/
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Summary:Carnosine and methionylglycine (using ³⁵S-methionylglycine as a representative marker) absorption and transfer across ruminal and omasal epithelia collected from four (carnosine) and seven (methionylglycine) sheep were studied using parabiotic chambers that were repeatedly sampled over a 240-min incubation. The quantity of dipeptide absorbed or transferred was linearly (P < .01) dependent on substrate concentration. Carnosine was transferred intact across both tissues. More carnosine was absorbed (P < .02) and transferred (P < .01) by the omasal epithelia. Methionylglycine was transferred intact across both tissues, but less (P < .01) remained intact in serosal buffer after 240 min incubation with omasal epithelium than with ruminal epithelium. The amount of methionylglycine that accumulated in each tissue was similar. Methionylglycine accumulation in tissues plus transfer after 240 min was greater (P < .01) for omasal tissue. The ability of sheep ruminal and omasal epithelia to absorb and transfer carnosine and methionylglycine in parabiotic units was demonstrated. Dipeptide translocation across forestomach epithelial tissues, which has not been reported previously, may be an important route for supplying dietary amino acids to the ruminant. === Master of Science