ACE
inhibitory effect of red alga proteins and peptides
Red algae proteolysates
contain peptides that inhibit the activity of the blood pressure-enhancing
enzyme “ACE”.
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)
Result
of Antihypertensive Activity
Antihypertensive effect was showed
stronger effect in the peptides than the proteins,
regardless of water extraction or heterologous expression. Based
on this result, we predicted the structure of a
functional peptide that most strongly inhibits ACE activity
among several types of peptides produced by proteases.