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Literature DB >> 1208101

Methyleneaminoacetonitrile: possible role in chemical evolution-II.

A S Subbaraman, Z A Kazi, A S Choughuley, M S Chadha.

Abstract

Methyleneaminoacetonitrile (MAAN) when reacted with other amino acids, gives rise to the formation of peptides in addition to the usual hydrolytic products. It acts as a precursor of glycine and also as a dehydration condensing agent. It has been shown that MAAN is easily formed by the reaction of hydrogen cyanide, ammonia and formaldehyde as well as by the reaction of formaldehyde with aminoacetonitrile, in dilute ammoniacal solution.

Entities: Chemical Disease

Mesh：

Substances：

Year: 1975 PMID： 1208101 DOI： 10.1007/bf00928901

Source DB: PubMed Journal: Orig Life ISSN： 0302-1688

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References

5 in total

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Authors: C PONNAMPERUMA; P KIRK; R MARINER; B TYSON
Journal: Nature Date: 1964-04-25 Impact factor: 49.962

2. SYNTHESIS OF COMPLEX ORGANIC COMPOUNDS FROM SIMPLE PRECURSORS: FORMATION OF AMINO-ACIDS, AMINO-ACID POLYMERS, FATTY ACIDS AND PURINES FROM AMMONIUM CYANIDE.

Authors: C U LOWE; M W REES; R MARKHAM
Journal: Nature Date: 1963-07-20 Impact factor: 49.962

Methyleneaminoacetonitrile: possible role in chemical evolution-II.

1. A COINCIDENCE TECHNIC FOR PAPER CHROMATOGRAPHY.

2. SYNTHESIS OF COMPLEX ORGANIC COMPOUNDS FROM SIMPLE PRECURSORS: FORMATION OF AMINO-ACIDS, AMINO-ACID POLYMERS, FATTY ACIDS AND PURINES FROM AMMONIUM CYANIDE.

3. PEPTIDE SYNTHESIS FROM AMINO ACIDS IN AQUEOUS SOLUTION.

Review 4. Current status of chemical studies on the origin of life.

5. The mechanism and protobiochemical relevance of dicyanamide-medicated peptide synthesis.