N. Lahav, D. White, and S. Chang, Peptide formation in prebiotic era -thermal 546 condensation of glycine in fluctuating clays environments, Science, vol.201, pp.67-69, 1978.

A. Spence and B. P. Kelleher, FT-IR spectroscopic analysis of kaolinite-microbial 597 interactions, Vibr. Spectr, vol.61, pp.151-155, 2012.

S. A. Villafane-barajas, J. P. Bau, M. Colin-garcia, and A. Negron-mendoza,

A. Barbero, T. Pi-puig, and D. A. Zaia, Salinity Effects on the Adsorption of 600, 2018.

, Nucleic Acid Compounds on Na-Montmorillonite: a Prebiotic Chemistry Experiment

, Orig. Life Evol. Biosph, vol.48, pp.181-200

Z. R. Wang, W. Zheng, Z. Q. Zhang, L. K. Chen, Z. F. Zhang et al., Formation of a kaolinite-serine intercalation compound via exchange of the pre-604 intercalated transition molecules in kaolinite with serine, Appl. Clay Sci, vol.135, pp.378-385, 2017.

D. H. White, R. M. Kennedy, and J. Macklin, Acyl silicates and acyl aluminates as 606 activated intermediates in peptide formation on clays, Orig. Life, vol.14, pp.273-278, 1984.

D. Y. Yang, S. M. Peng, M. R. Hartman, T. Gupton-campolongo, E. J. Rice et al., , p.608

A. K. Gu, Z. Lu, G. Q. Luo, and D. , Enhanced transcription and translation in clay 609 hydrogel and implications for early life evolution, Scient. Rep, vol.3, p.3165, 2013.

D. A. Zaia, Adsorption of amino acids and nucleic acid bases onto minerals: a 611 few suggestions for prebiotic chemistry experiments, Int. J. Astrobiol, vol.11, pp.229-234, 2012.

K. I. Zamaraev, N. Romannikov, V. Salganik, R. I. Wlassoff, W. A. Khramtsov et al., Modelling of the prebiotic synthesis of oligopeptides: silicate catalysts help to 614 overcome the critical stage, Orig. Life Evol. Biosph, vol.613, pp.325-337, 1997.