在含有甲烷、一氧化碳和二氧化碳的大气中的益生元合成。I. 氨基酸。

Prebiotic synthesis in atmospheres containing CH4, CO, and CO2. I. Amino acids.

作者信息

Schlesinger G, Miller S L

出版信息

J Mol Evol. 1983;19(5):376-82. doi: 10.1007/BF02101642.

Abstract

The prebiotic synthesis of organic compounds using a spark discharge on various simulated primitive earth atmospheres at 25 degrees C has been studied. Methane mixtures contained H2 + CH4 + H2O + N2 + NH3 with H2/CH4 molar ratios from 0 to 4 and pNH3 = 0.1 torr. A similar set of experiments without added NH3 was performed. The yields of amino acids (1.2 to 4.7% based on the carbon) are approximately independent of the H2/CH4 ratio and whether NH3 was present, and a wide variety of amino acids are obtained. Mixtures of H2 + CO + H2O + N2 and H2 + CO2 + H2O + N2, with and without added NH3, all gave about 2% yields of amino acids at H2/CO and H2/CO2 ratios of 2 to 4. For a H2/CO2 ratio of 0, the yield of amino acids is extremely low (10(-3)%). Glycine is almost the only amino acid produced from CO and CO2 model atmospheres. These results show that the maximum yield is about the same for the three carbon sources at high H2/carbon ratios, but that CH4 is superior at low H2/carbon ratios. In addition, CH4 gives a much greater variety of amino acids than either CO or CO2. If it is assumed that an abundance of amino acids more complex than glycine was required for the origin of life, then these results indicate the requirement for CH4 in the primitive atmosphere.

摘要

人们研究了在25摄氏度下，利用火花放电在各种模拟原始地球大气中进行有机化合物的益生元合成。甲烷混合物包含H2 + CH4 + H2O + N2 + NH3，H2/CH4摩尔比为0至4，pNH3 = 0.1托。进行了一组类似的不添加NH3的实验。氨基酸产量（基于碳为1.2%至4.7%）大致与H2/CH4比值以及是否存在NH3无关，并且获得了多种氨基酸。H2 + CO + H2O + N2和H2 + CO2 + H2O + N2的混合物，添加和不添加NH3的情况下，在H2/CO和H2/CO2比值为2至4时，氨基酸产量均约为2%。对于H2/CO2比值为0的情况，氨基酸产量极低（10^(-3)%）。甘氨酸几乎是由CO和CO2模拟大气产生的唯一氨基酸。这些结果表明，在高H2/碳比值下，三种碳源的最大产量大致相同，但在低H2/碳比值下，CH4更具优势。此外，CH4产生的氨基酸种类比CO或CO2多得多。如果假设生命起源需要大量比甘氨酸更复杂的氨基酸，那么这些结果表明原始大气中需要CH4。

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本文引用的文献

Nonprotein amino acids from spark discharges and their comparison with the murchison meteorite amino acids.来自火花放电的非蛋白质氨基酸及其与默奇森陨石氨基酸的比较。

Proc Natl Acad Sci U S A. 1972 Apr;69(4):809-11. doi: 10.1073/pnas.69.4.809.

Photocatalytic Production of Organic Compounds from CO and H(2)O in a Simulated Martian Atmosphere.在模拟火星大气中由一氧化碳和水通过光催化生产有机化合物

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ABIOGENIC SYNTHESIS IN THE MARTIAN ENVIRONMENT.火星环境中的非生物合成

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在含有甲烷、一氧化碳和二氧化碳的大气中的益生元合成。I. 氨基酸。

Prebiotic synthesis in atmospheres containing CH4, CO, and CO2. I. Amino acids.

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