beta-Endorphin: formation of alpha-helix in lipid solutions. | Zendy

C S Wu | Zendy; N. M. Lee | Zendy; Horace H. Loh | Zendy; J Yang | Zendy; C H Li | Zendy

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beta-Endorphin: formation of alpha-helix in lipid solutions.

Author(s) -

C S Wu,

N. M. Lee,

Horace H. Loh,

J Yang,

C H Li

Publication year - 1979

Publication title -

proceedings of the national academy of sciences

Language(s) - English

Resource type - Journals

eISSN - 1091-6490

pISSN - 0027-8424

DOI - 10.1073/pnas.76.8.3656

Subject(s) - phosphatidic acid , cerebroside , chemistry , peptide , stereochemistry , ganglioside , phosphatidylcholine , biochemistry , phospholipid , membrane

Human beta-endorphin adopts a partial helical conformation in aqueous solutions of cerebroside sulfate, ganglioside GM1, phosphatidylserine, and phosphatidic acid, but not of cerebroside and phosphatidylcholine, as evidenced by circular dichroic spectra. Addition of Ca2+ to the peptide in cerebroside sulfate solution can break up the helix; at 10 mM Ca2+ the peptide (12 microM) essentially exists in an unordered form. For comparison, sheep beta-lipotropin in acidic cerebroside sulfate solution (pH less than 4) also has a partial helical conformation of the complex between human beta-endorphin and lipids may be related to the opiatelike function of this peptide hormone.

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