The Origin and Early Evolution of Life: Prebiotic Chemistry of Biomolecules
Fiore, Michele
The Origin and Early Evolution of Life: Prebiotic Chemistry of Biomolecules
English[eng]
minerals||n/a||inosine||carbamic acid||prebiotic chemistry||pentopyranose nucleic acid||catalysis||MVC architecture pattern and biological information||carbon dioxide-ammonia ices||stability as a selection pressure||ribozyme and tRNA||translation and the genetic code||AnyLogic software for computer simulation of translation machine||Darwinian evolution||prebiotic information system||genetic code origin||electrochemistry||coevolution of translation machine and the genetic code||digit multiplicity||thermodynamic bottleneck||abasic oligomers||selection||nucleotide stability||AICAR||tRNA-synthetase||hypercycle||nucleotide oligomerization||origin of life||thioester||dry-wet cycles||Chemomimesis||population growth||tRNA and mRNA||diversity||early peptides||Molecular Darwinism||tRNA accretion model||replication||aldol reaction||hydrothermal vents||base pairing||numerical codons||abiogenesis||purine precursor||peptide/RNA world||information||ab initio molecular dynamics||RNA||cysteine||nucleotide and nucleoside synthesis||thiol-rich peptides||novel metalloproteins||transmission||function||energy currency||anharmonicity||arabinopyranose nucleic acid||bridge peptide and aaRS||aminonitriles||mechanochemistry||prebiotic polymerization||origins of life||encoding||carbon fixation||infrared spectra||phosphoryl transfer||metabolism||growth order||layered double hydroxide (LDH) clay||molecular clocks||Monte Carlo||binary patterned amino acid sequences||network expansion simulation||prebiotic soup||nucleotidyltransferases||mixed anhydride||phosphates||translation||ribosome||pentose diphosphate||monosaccharides||systems chemistry||reduction||imidazoles||protein design
The Origin and Early Evolution of Life: Prebiotic Chemistry of Biomolecules
English[eng]
minerals||n/a||inosine||carbamic acid||prebiotic chemistry||pentopyranose nucleic acid||catalysis||MVC architecture pattern and biological information||carbon dioxide-ammonia ices||stability as a selection pressure||ribozyme and tRNA||translation and the genetic code||AnyLogic software for computer simulation of translation machine||Darwinian evolution||prebiotic information system||genetic code origin||electrochemistry||coevolution of translation machine and the genetic code||digit multiplicity||thermodynamic bottleneck||abasic oligomers||selection||nucleotide stability||AICAR||tRNA-synthetase||hypercycle||nucleotide oligomerization||origin of life||thioester||dry-wet cycles||Chemomimesis||population growth||tRNA and mRNA||diversity||early peptides||Molecular Darwinism||tRNA accretion model||replication||aldol reaction||hydrothermal vents||base pairing||numerical codons||abiogenesis||purine precursor||peptide/RNA world||information||ab initio molecular dynamics||RNA||cysteine||nucleotide and nucleoside synthesis||thiol-rich peptides||novel metalloproteins||transmission||function||energy currency||anharmonicity||arabinopyranose nucleic acid||bridge peptide and aaRS||aminonitriles||mechanochemistry||prebiotic polymerization||origins of life||encoding||carbon fixation||infrared spectra||phosphoryl transfer||metabolism||growth order||layered double hydroxide (LDH) clay||molecular clocks||Monte Carlo||binary patterned amino acid sequences||network expansion simulation||prebiotic soup||nucleotidyltransferases||mixed anhydride||phosphates||translation||ribosome||pentose diphosphate||monosaccharides||systems chemistry||reduction||imidazoles||protein design