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Literature DB >> 26278451

Evidence for the Formation of Pyrimidine Cations from the Sequential Reactions of Hydrogen Cyanide with the Acetylene Radical Cation.

Ahmed M Hamid¹, Partha P Bera^2,3, Timothy J Lee², Saadullah G Aziz⁴, Abdulrahman O Alyoubi⁴, M Samy El-Shall¹.

Abstract

Herein, we report the first direct evidence for the formation of pyrimidine ion isomers by sequential reactions of HCN with the acetylene radical cation in the gas phase at ambient temperature using the mass-selected variable temperature and pressure ion mobility technique. The formation and structures of the pyrimidine ion isomers are theoretically predicted via coupled cluster and density functional theory calculations. This ion-molecule synthesis may indicate that pyrimidine is produced in the gas phase in space environments before being incorporated into condensed-phase ices and transformed into nucleic acid bases such as uracil.

Entities: Chemical Gene

Keywords: acetylene; astrochemistry; hydrogen cyanide; ion mobility; ion−molecule reactions; pyrimidine cation−HCN complex; pyrimidine ion

Year: 2014 PMID： 26278451 DOI： 10.1021/jz501648q

Source DB: PubMed Journal: J Phys Chem Lett ISSN： 1948-7185 Impact factor: 6.475

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Cited

4 in total

1. Mechanisms of the Formation of Adenine, Guanine, and Their Analogues in UV-Irradiated Mixed NH₃:H₂O Molecular Ices Containing Purine.

Authors: Partha P Bera; Tamar Stein; Martin Head-Gordon; Timothy J Lee
Journal: Astrobiology Date: 2017-07-14 Impact factor: 4.335

Evidence for the Formation of Pyrimidine Cations from the Sequential Reactions of Hydrogen Cyanide with the Acetylene Radical Cation.

1. Mechanisms of the Formation of Adenine, Guanine, and Their Analogues in UV-Irradiated Mixed NH₃:H₂O Molecular Ices Containing Purine.

2. Mechanisms for the formation of thymine under astrophysical conditions and implications for the origin of life.

3. The Formation of Nucleobases from the Ultraviolet Photoirradiation of Purine in Simple Astrophysical Ice Analogues.

4. Characterization of the Azirinyl Cation and Its Isomers.

Evidence for the Formation of Pyrimidine Cations from the Sequential Reactions of Hydrogen Cyanide with the Acetylene Radical Cation.

1. Mechanisms of the Formation of Adenine, Guanine, and Their Analogues in UV-Irradiated Mixed NH3:H2O Molecular Ices Containing Purine.

2. Mechanisms for the formation of thymine under astrophysical conditions and implications for the origin of life.

3. The Formation of Nucleobases from the Ultraviolet Photoirradiation of Purine in Simple Astrophysical Ice Analogues.

4. Characterization of the Azirinyl Cation and Its Isomers.

1. Mechanisms of the Formation of Adenine, Guanine, and Their Analogues in UV-Irradiated Mixed NH₃:H₂O Molecular Ices Containing Purine.