Quantum Foundations of Resonant Recognition Model
Апстракт
Biomolecular recognition is an open scientific problem, which has been investigated in many theoretical and experimental aspects. In that sense, there are encouraging results within Resonant Recognition Model (RRM), based on the finding that there is a significant correlation between spectra of the numerical presentation of amino acids in the primary structure of proteins and their biological activity. It has been found through an extensive research that proteins with the same biological function have a common frequency in their numerical spectra. This frequency was found then to be a characteristic feature for protein biological function or interaction The RRM model proposes that the selectivity of protein interactions is based on resonant energy transfer between interacting biomolecules and that this energy, electromagnetic in its nature, is in the frequency range of 10(13) to 10(15) Hz, which incorporates infra-red (IR), visible and a small portion of the ultra-violet (UV) radiation.... In this paper, the quantum mechanical basis of the RRM model will be investigated using the solution in the simplified framework of Huckel-like theory of molecular orbits.
Извор:
Acta Physica Polonica A, 2010, 117, 5, 756-759Финансирање / пројекти:
- Квантни модели отворених система (RS-141016)
Напомена:
- 11th Annual Conference of the Materials-Research-Society-of-Serbia (YUCOMAT 2009), Aug 31-Sep 04, 2009, Herceg Novi, Montenegro
DOI: 10.12693/APhysPolA.117.756
ISSN: 0587-4246
WoS: 000278221700008
Scopus: 2-s2.0-77952694256
Колекције
Институција/група
VinčaTY - JOUR AU - Keković, Goran AU - Raković, Dejan AU - Tosic, B. AU - Davidović, David AU - Cosic, I. PY - 2010 UR - https://vinar.vin.bg.ac.rs/handle/123456789/6869 AB - Biomolecular recognition is an open scientific problem, which has been investigated in many theoretical and experimental aspects. In that sense, there are encouraging results within Resonant Recognition Model (RRM), based on the finding that there is a significant correlation between spectra of the numerical presentation of amino acids in the primary structure of proteins and their biological activity. It has been found through an extensive research that proteins with the same biological function have a common frequency in their numerical spectra. This frequency was found then to be a characteristic feature for protein biological function or interaction The RRM model proposes that the selectivity of protein interactions is based on resonant energy transfer between interacting biomolecules and that this energy, electromagnetic in its nature, is in the frequency range of 10(13) to 10(15) Hz, which incorporates infra-red (IR), visible and a small portion of the ultra-violet (UV) radiation. In this paper, the quantum mechanical basis of the RRM model will be investigated using the solution in the simplified framework of Huckel-like theory of molecular orbits. T2 - Acta Physica Polonica A T1 - Quantum Foundations of Resonant Recognition Model VL - 117 IS - 5 SP - 756 EP - 759 DO - 10.12693/APhysPolA.117.756 ER -
@article{ author = "Keković, Goran and Raković, Dejan and Tosic, B. and Davidović, David and Cosic, I.", year = "2010", abstract = "Biomolecular recognition is an open scientific problem, which has been investigated in many theoretical and experimental aspects. In that sense, there are encouraging results within Resonant Recognition Model (RRM), based on the finding that there is a significant correlation between spectra of the numerical presentation of amino acids in the primary structure of proteins and their biological activity. It has been found through an extensive research that proteins with the same biological function have a common frequency in their numerical spectra. This frequency was found then to be a characteristic feature for protein biological function or interaction The RRM model proposes that the selectivity of protein interactions is based on resonant energy transfer between interacting biomolecules and that this energy, electromagnetic in its nature, is in the frequency range of 10(13) to 10(15) Hz, which incorporates infra-red (IR), visible and a small portion of the ultra-violet (UV) radiation. In this paper, the quantum mechanical basis of the RRM model will be investigated using the solution in the simplified framework of Huckel-like theory of molecular orbits.", journal = "Acta Physica Polonica A", title = "Quantum Foundations of Resonant Recognition Model", volume = "117", number = "5", pages = "756-759", doi = "10.12693/APhysPolA.117.756" }
Keković, G., Raković, D., Tosic, B., Davidović, D.,& Cosic, I.. (2010). Quantum Foundations of Resonant Recognition Model. in Acta Physica Polonica A, 117(5), 756-759. https://doi.org/10.12693/APhysPolA.117.756
Keković G, Raković D, Tosic B, Davidović D, Cosic I. Quantum Foundations of Resonant Recognition Model. in Acta Physica Polonica A. 2010;117(5):756-759. doi:10.12693/APhysPolA.117.756 .
Keković, Goran, Raković, Dejan, Tosic, B., Davidović, David, Cosic, I., "Quantum Foundations of Resonant Recognition Model" in Acta Physica Polonica A, 117, no. 5 (2010):756-759, https://doi.org/10.12693/APhysPolA.117.756 . .