Photosynthetic pigment-protein complexes optical response modeling optimized by Differential evolution: algorithm convergence study
Photosynthetic pigment-protein complexes are the essential parts of thylakoid membranes of higher plants and cyanobacteria. Besides many organic and inorganic molecules they contain pigments like chlorophyll, bacteriochlorophyll, and carotenoids, which absorb the incident light and transform it into...
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| Vydáno v: | Journal of physics. Conference series Ročník 2090; číslo 1; s. 12028 - 12032 |
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| Jazyk: | angličtina |
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IOP Publishing
01.11.2021
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| ISSN: | 1742-6588, 1742-6596 |
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| Abstract | Photosynthetic pigment-protein complexes are the essential parts of thylakoid membranes of higher plants and cyanobacteria. Besides many organic and inorganic molecules they contain pigments like chlorophyll, bacteriochlorophyll, and carotenoids, which absorb the incident light and transform it into the energy of the excited electronic states. The semiclassical theories such as molecular exciton theory and the multimode Brownian oscillator model allows us to simulate the linear and nonlinear optical response of any pigment-protein complex, however, the main disadvantage of those approaches is a significant amount of effective parameters needed to be found in order to reproduce the experimental data. To overcome these difficulties we used the Differential evolution method (DE) that belongs to the family of evolutionary optimization algorithms. Based on our preliminary studies of the linear optical properties of monomeric photosynthetic pigments using DE, we proceed to more complex systems like the reaction center of photosystem II isolated from higher plants (PSIIRC). PSIIRC contains only eight chlorophyll pigments, and therefore it is potentially a very promising subject to test DE as a powerful optimization procedure for simulation of the optical response of a system of interacting pigments. Using the theoretically simulated linear spectra of PSIIRC (absorption, circular dichroism, linear dichroism, and fluorescence), we investigated the dependence of the algorithm convergence on DE settings: strategies, crossover, weighting factor; eventually finding the optimal mode of operation of the optimization procedure. |
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| AbstractList | Photosynthetic pigment-protein complexes are the essential parts of thylakoid membranes of higher plants and cyanobacteria. Besides many organic and inorganic molecules they contain pigments like chlorophyll, bacteriochlorophyll, and carotenoids, which absorb the incident light and transform it into the energy of the excited electronic states. The semiclassical theories such as molecular exciton theory and the multimode Brownian oscillator model allows us to simulate the linear and nonlinear optical response of any pigment-protein complex, however, the main disadvantage of those approaches is a significant amount of effective parameters needed to be found in order to reproduce the experimental data. To overcome these difficulties we used the Differential evolution method (DE) that belongs to the family of evolutionary optimization algorithms. Based on our preliminary studies of the linear optical properties of monomeric photosynthetic pigments using DE, we proceed to more complex systems like the reaction center of photosystem II isolated from higher plants (PSIIRC). PSIIRC contains only eight chlorophyll pigments, and therefore it is potentially a very promising subject to test DE as a powerful optimization procedure for simulation of the optical response of a system of interacting pigments. Using the theoretically simulated linear spectra of PSIIRC (absorption, circular dichroism, linear dichroism, and fluorescence), we investigated the dependence of the algorithm convergence on DE settings: strategies, crossover, weighting factor; eventually finding the optimal mode of operation of the optimization procedure. |
| Author | Pishchalnikov, Roman Y Chesalin, Denis D |
| Author_xml | – sequence: 1 givenname: Denis D surname: Chesalin fullname: Chesalin, Denis D organization: Prokhorov General Physics Institute of the Russian Academy of Sciences , Russia – sequence: 2 givenname: Roman Y surname: Pishchalnikov fullname: Pishchalnikov, Roman Y organization: Prokhorov General Physics Institute of the Russian Academy of Sciences , Russia |
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| Cites_doi | 10.1134/s1995080220080156 10.1103/RevModPhys.90.035003 10.1007/s11120-020-00779-y 10.1039/c6cp07308e 10.1021/acs.chemrev.6b00002 10.1023/A:1008202821328 10.1016/jjcp.2018.06.040 10.1063/1.4997527 |
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| References | Gelzinis (JPCS_2090_1_012028bib3) 2017; 147 Storn (JPCS_2090_1_012028bib5) 1997; 11 Pishchalnikov (JPCS_2090_1_012028bib7) 2020; 41 Mirkovic (JPCS_2090_1_012028bib1) 2017; 117 Novoderezhkin (JPCS_2090_1_012028bib4) 2017; 19 Mukamel (JPCS_2090_1_012028bib8) 1995; 6 Pishchalnikov (JPCS_2090_1_012028bib6) 2018; 372 Jang (JPCS_2090_1_012028bib2) 2018; 90 Pishchalnikov (JPCS_2090_1_012028bib9) 2020; 146 |
| References_xml | – volume: 41 start-page: 1545 year: 2020 ident: JPCS_2090_1_012028bib7 article-title: Optimizing the Multimode Brownian Oscillator Model for the Optical Response of Carotenoids in Solution by Fine Tuning of Differential Evolution publication-title: Lobachevskii Journal of Mathematics doi: 10.1134/s1995080220080156 – volume: 90 year: 2018 ident: JPCS_2090_1_012028bib2 article-title: Delocalized excitons in natural light-harvesting complexes publication-title: Reviews of Modern Physics doi: 10.1103/RevModPhys.90.035003 – volume: 146 start-page: 75 year: 2020 ident: JPCS_2090_1_012028bib9 article-title: The role of vibronic modes in formation of red antenna states of cyanobacterial PSI publication-title: Photosynthesis Research doi: 10.1007/s11120-020-00779-y – volume: 19 start-page: 5195 year: 2017 ident: JPCS_2090_1_012028bib4 article-title: Exciton-vibrational resonance and dynamics of charge separation in the photosystem II reaction center publication-title: Physical Chemistry Chemical Physics doi: 10.1039/c6cp07308e – volume: 117 start-page: 249 year: 2017 ident: JPCS_2090_1_012028bib1 article-title: Light Absorption and Energy Transfer in the Antenna Complexes of Photosynthetic Organisms publication-title: Chemical Reviews doi: 10.1021/acs.chemrev.6b00002 – volume: 6 start-page: 543 year: 1995 ident: JPCS_2090_1_012028bib8 – volume: 11 start-page: 341 year: 1997 ident: JPCS_2090_1_012028bib5 article-title: Differential evolution-A simple and efficient heuristic for global optimization over continuous spaces publication-title: Journal of Global Optimization doi: 10.1023/A:1008202821328 – volume: 372 start-page: 603 year: 2018 ident: JPCS_2090_1_012028bib6 article-title: Application of the differential evolution for simulation of the linear optical response of photosynthetic pigments publication-title: Journal of Computational Physics doi: 10.1016/jjcp.2018.06.040 – volume: 147 year: 2017 ident: JPCS_2090_1_012028bib3 article-title: Spectroscopic properties of photosystem II reaction center revisited publication-title: Journal of Chemical Physics doi: 10.1063/1.4997527 |
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| Title | Photosynthetic pigment-protein complexes optical response modeling optimized by Differential evolution: algorithm convergence study |
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