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Microwave-assisted reaction of peptide formation by amino acid with phosphate: Exploration of the most possible channels for the origin of life

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Abstract

Microwave-assisted reaction of peptide formation by amino acids with phosphate was studied. The results showed that the products were a mixture of peptides containing dipeptide, octapeptides and cyclic peptides, which could be obtained in a short time. Polyphosphate was also produced synchronously by the intermolecular condensation of phosphate. The polymerization degree reached 99% (pyrophosphate 64%, trimetaphosphate 35%) after 2 h at 200°C under microwave irradiation. The intermediates of the mixed anhydrides formed by the intermolecular condensation of phosphates and glycin were determined by ESI-MS. Peptides were also produced by the reaction of amino acids with trimetaphosphate in aqueous solution. The conversion degree of valine reached 46.5% even at room temperature. The cyclic process of peptide formation and phosphate polymerization, regeneration and utilization in amino acids-phosphate system under microwave irradiation was detected and proved. Peptides could be continually formed only by inputting energy into this system. The above recycle may be the most possible process for primitive peptide formation in the origin of life.

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Authors and Affiliations

  1. College of Chemistry & Environment Protection Engineering, Southwest University for Nationalities, Chengdu, 610041, China

    Hu Rong

  2. TH-UNIS Insight Co., Ltd., Beijing, 100085, China

    Tian Jinping & Yin Yingwu

  3. Key Laboratory of Bioorganic Phosphorus Chemistry & Chemical Biology, Ministry of Education, Department of Chemistry, Tsinghua University, Beijing, 100084, China

    Yin Yingwu

Authors
  1. Hu Rong
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  2. Tian Jinping
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  3. Yin Yingwu
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Correspondence to Hu Rong.

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Hu, R., Tian, J. & Yin, Y. Microwave-assisted reaction of peptide formation by amino acid with phosphate: Exploration of the most possible channels for the origin of life. SCI CHINA SER B 49, 351–356 (2006). https://doi.org/10.1007/s11426-006-2003-z

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  • DOI: https://doi.org/10.1007/s11426-006-2003-z

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