SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2016798061> ?p ?o ?g. }

Showing items 1 to 100 of ±156 with 100 items per page.

W2016798061 endingPage "448" @default.
W2016798061 startingPage "441" @default.
W2016798061 abstract "A number of the electrogenic reactions in photosystem I, photosystem II, and bacterial reaction centers (RC) were comparatively analyzed, and the variation of the dielectric permittivity (ε) in the vicinity of electron carriers along the membrane normal was calculated. The value of ε was minimal at the core of the complexes and gradually increased towards the periphery. We found that the rate of electron transfer (ET) correlated with the value of the dielectric permittivity: the fastest primary ET reactions occur in the low-polarity core of the complexes within the picosecond time range, whereas slower secondary reactions take place at the high-polarity periphery of the complexes within micro- to millisecond time range. The observed correlation was quantitatively interpreted in the framework of the Marcus theory. We calculated the reorganization energy of ET carriers using their van der Waals volumes and experimentally determined ε values. The electronic coupling was calculated by the empirical Moser–Dutton rule for the distance-dependent electron tunneling rate in nonadiabatic ET reactions. We concluded that the local dielectric permittivity inferred from the electrometric measurements could be quantitatively used to estimate the rate constant of ET reactions in membrane proteins with resolved atomic structure with the accuracy of less than one order of magnitude." @default.
W2016798061 created "2016-06-24" @default.
W2016798061 creator A5001711863 @default.
W2016798061 creator A5002019339 @default.
W2016798061 creator A5029915270 @default.
W2016798061 creator A5040448966 @default.
W2016798061 date "2007-06-01" @default.
W2016798061 modified "2023-10-11" @default.
W2016798061 title "Correlation of electron transfer rate in photosynthetic reaction centers with intraprotein dielectric properties" @default.
W2016798061 cites W1504636121 @default.
W2016798061 cites W1961714136 @default.
W2016798061 cites W1963823040 @default.
W2016798061 cites W1972528462 @default.
W2016798061 cites W1976574787 @default.
W2016798061 cites W1980821496 @default.
W2016798061 cites W1982307256 @default.
W2016798061 cites W1988369012 @default.
W2016798061 cites W1999101424 @default.
W2016798061 cites W2000088576 @default.
W2016798061 cites W2000161257 @default.
W2016798061 cites W2003870519 @default.
W2016798061 cites W2007176314 @default.
W2016798061 cites W2008126782 @default.
W2016798061 cites W2009174324 @default.
W2016798061 cites W2010105343 @default.
W2016798061 cites W2019625280 @default.
W2016798061 cites W2020587093 @default.
W2016798061 cites W2024442584 @default.
W2016798061 cites W2024651920 @default.
W2016798061 cites W2024877397 @default.
W2016798061 cites W2029615226 @default.
W2016798061 cites W2031904472 @default.
W2016798061 cites W2035580476 @default.
W2016798061 cites W2045260996 @default.
W2016798061 cites W2047118460 @default.
W2016798061 cites W2048051552 @default.
W2016798061 cites W2051397621 @default.
W2016798061 cites W2051532392 @default.
W2016798061 cites W2057863409 @default.
W2016798061 cites W2058686920 @default.
W2016798061 cites W2060823349 @default.
W2016798061 cites W2061730845 @default.
W2016798061 cites W2062236577 @default.
W2016798061 cites W2067664795 @default.
W2016798061 cites W2069559071 @default.
W2016798061 cites W2070679584 @default.
W2016798061 cites W2080022158 @default.
W2016798061 cites W2080696724 @default.
W2016798061 cites W2083907491 @default.
W2016798061 cites W2086919974 @default.
W2016798061 cites W2088766338 @default.
W2016798061 cites W2094003360 @default.
W2016798061 cites W2094635356 @default.
W2016798061 cites W2095216354 @default.
W2016798061 cites W2099790064 @default.
W2016798061 cites W2105125469 @default.
W2016798061 cites W2106695740 @default.
W2016798061 cites W2110562802 @default.
W2016798061 cites W2122720505 @default.
W2016798061 cites W2123700479 @default.
W2016798061 cites W2126285505 @default.
W2016798061 cites W2129274049 @default.
W2016798061 cites W2131132417 @default.
W2016798061 cites W2143418517 @default.
W2016798061 cites W2150787645 @default.
W2016798061 cites W2165896332 @default.
W2016798061 cites W2774253339 @default.
W2016798061 cites W2907824177 @default.
W2016798061 doi "https://doi.org/10.1016/j.bbabio.2007.01.008" @default.
W2016798061 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/17328862" @default.
W2016798061 hasPublicationYear "2007" @default.
W2016798061 type Work @default.
W2016798061 sameAs 2016798061 @default.
W2016798061 citedByCount "24" @default.
W2016798061 countsByYear W20167980612012 @default.
W2016798061 countsByYear W20167980612013 @default.
W2016798061 countsByYear W20167980612014 @default.
W2016798061 countsByYear W20167980612015 @default.
W2016798061 countsByYear W20167980612016 @default.
W2016798061 countsByYear W20167980612017 @default.
W2016798061 countsByYear W20167980612019 @default.
W2016798061 countsByYear W20167980612021 @default.
W2016798061 countsByYear W20167980612022 @default.
W2016798061 crossrefType "journal-article" @default.
W2016798061 hasAuthorship W2016798061A5001711863 @default.
W2016798061 hasAuthorship W2016798061A5002019339 @default.
W2016798061 hasAuthorship W2016798061A5029915270 @default.
W2016798061 hasAuthorship W2016798061A5040448966 @default.
W2016798061 hasConcept C120665830 @default.
W2016798061 hasConcept C121332964 @default.
W2016798061 hasConcept C123669783 @default.
W2016798061 hasConcept C1276947 @default.
W2016798061 hasConcept C133386390 @default.
W2016798061 hasConcept C147120987 @default.
W2016798061 hasConcept C148898269 @default.
W2016798061 hasConcept C159467904 @default.
W2016798061 hasConcept C159985019 @default.
W2016798061 hasConcept C168651791 @default.