Supermolecular Nanoentities of Vitamin B 12 Derivative as a Link in the Evolution of the Parent Molecules During Self-Assembly at the Air-Water Interface.
Larissa A MaiorovaNagao KobayashiDenis S SalnikovSergey M KuzminTamara V BasovaOscar I KoifmanVladimir I ParfenyukVictor A BykovYurii A BobrovPeng YangPublished in: Langmuir : the ACS journal of surfaces and colloids (2023)
Nanoarchitectures with promising properties have now been formed from many important biomolecules. However, the preparation of nanoparticles of vitamin B 12 and its derivatives remains an ongoing research challenge. This paper describes the formation of supermolecular nanoentities (SMEs) of vitamin B 12 derivatives, unique nanoparticles with strong noncovalent intermolecular interactions, emerging properties, and activity. These were created by a nanoarchitectonic approach using directed assembly of layers at the air-water interface as a link in the chain of evolution of the parent molecules under specially created conditions. Such layers can be represented as a nanocosm, where, at a critical density, the assemblies act as nanoreactors in which the transformation of the original material occurs. The discovered SMEs not only replicate the functioning of vitamin B 12 assemblies with proteins in living organisms and act as vitamin B 12 -depended enzymes but also demonstrate important advantages over vitamin B 12 . They are more efficient in oxygen reduction/evolution reactions and in transformation into other forms. These SMEs, in performing advanced tasks, are an alternative to widely used materials based on noble metals for catalysis, medicine, and environment protection. Our findings open new perspectives both for the fabrication of novel SMEs of biomolecules and for a better understanding of the evolution of biomolecules in nature.