Coacervate-like Microspheres from Lysine-rich Proteinoid

Overview

Journal Orig Life

Specialties Biology
Molecular Biology

Date 1975 Jan 1

PMID 239375

Citations 4

Authors

D L Rohlfing

Affiliations

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Abstract

Microspheres form isothermally from lysine-rich proteinoid when the ionic strength of the solution is increased with NaCl or other salts. Studies with different monovalent anions and with polymers of different amino acid composition indicate that charge neutralization and hydrophobic bonding contribute to microsphere formation. The particles also form in sea water, especially if heated or made slightly alkaline. The microspheres differ from those made from acidic proteinoid but resemble coacervate droplets in some ways (isothermal formation, limited stability, stabilization by quinone, uptake of dyes). Because the constituent lysine-rich proteinoid is of simulated prebiotic origin, the study is interpreted to add emphasis to and suggest an evolutionary continuity for coacervation phenomena.

Citing Articles

Metabolic microspheres: origins and evolution.

FOX S Naturwissenschaften. 1980; 67(8):378-83.

PMID: 6997755 DOI: 10.1007/BF00405480.

The evolution of prebiological self-organization: probable colloid-chemical evolution of first prokaryotic cells.

LIEBL V, Novak V, Masinovsky Z, Pacltova B, Bejsovcova L Orig Life. 1984; 14(1-4):323-34.

PMID: 6462673 DOI: 10.1007/BF00933674.

Synthesis of peptides from amino acids and ATP with lysine-rich proteinoid.

Nakashima T, FOX S J Mol Evol. 1980; 15(2):161-8.

PMID: 6249936 DOI: 10.1007/BF01732668.

The evolutionary significance of phase-separated microsystems.

FOX S Orig Life. 1976; 7(1):49-68.

PMID: 787866 DOI: 10.1007/BF01218513.

References

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