Prebiotic polymerization had to be a nonenzymatic, chemically driven process. These processes would have been particularly favored in scenarios which push reaction regimes far from equilibrium. Dehydration-rehydration (DH-RH) cycles are one such regime thought to have been prevalent on prebiotic Earth in niches like volcanic geothermal pools. The present study defines the optimum DH-RH reaction conditions for lipid-assisted polymerization of nucleotides. The resultant products were characterized to understand their chemical makeup. Primarily, our study demonstrates that the resultant RNA-like oligomers have abasic sites, which means these oligomers lack information-carrying capability because of losing most of their bases during the reactio...
The demonstration that ribosomal peptide synthesis is a ribozyme-catalyzed reaction makes it almost ...
All the strategies for the prebiotic syntheses of RNA and DNA assume the adequate availability of th...
All the strategies for the prebiotic syntheses of RNA and DNA assume the adequate availability of th...
Prebiotic polymerization had to be a nonenzymatic, chemically driven process. These processes would ...
This article belongs to the Special Issue Themed Issue Commemorating Prof. David Deamer's 80th Birth...
The field of prebiotic chemistry deals with experimental and theoretical approaches and scenarios to...
On early Earth, a primitive polymer that could spontaneously form from likely available precursors m...
For more than a century, chemists and biologists have been trying to understand, and recreate, how l...
Available evidence, both in vitro and in vivo, attests to the descent of life from the RNA World; ho...
The mechanism by which informational polymers first formed on the early earth is currently unknown. ...
Cellular life is based on interacting polymer networks that serve as catalysts, genetic information ...
All the strategies for the prebiotic syntheses of RNA and DNA assume the adequate availability of th...
All the strategies for the prebiotic syntheses of RNA and DNA assume the adequate availability of th...
Prebiotic chemistry plays a central role in the investigation of the possible scenarios of the early...
The demonstration that ribosomal peptide synthesis is a ribozyme-catalyzed reaction makes it almost ...
All the strategies for the prebiotic syntheses of RNA and DNA assume the adequate availability of th...
All the strategies for the prebiotic syntheses of RNA and DNA assume the adequate availability of th...
Prebiotic polymerization had to be a nonenzymatic, chemically driven process. These processes would ...
This article belongs to the Special Issue Themed Issue Commemorating Prof. David Deamer's 80th Birth...
The field of prebiotic chemistry deals with experimental and theoretical approaches and scenarios to...
On early Earth, a primitive polymer that could spontaneously form from likely available precursors m...
For more than a century, chemists and biologists have been trying to understand, and recreate, how l...
Available evidence, both in vitro and in vivo, attests to the descent of life from the RNA World; ho...
The mechanism by which informational polymers first formed on the early earth is currently unknown. ...
Cellular life is based on interacting polymer networks that serve as catalysts, genetic information ...
All the strategies for the prebiotic syntheses of RNA and DNA assume the adequate availability of th...
All the strategies for the prebiotic syntheses of RNA and DNA assume the adequate availability of th...
Prebiotic chemistry plays a central role in the investigation of the possible scenarios of the early...
The demonstration that ribosomal peptide synthesis is a ribozyme-catalyzed reaction makes it almost ...
All the strategies for the prebiotic syntheses of RNA and DNA assume the adequate availability of th...
All the strategies for the prebiotic syntheses of RNA and DNA assume the adequate availability of th...