SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2023276680> ?p ?o ?g. }

Showing items 1 to 100 of ±127 with 100 items per page.

W2023276680 endingPage "1054" @default.
W2023276680 startingPage "1049" @default.
W2023276680 abstract "Based on direct spectroscopic measurements of hole transfer in DNA and quantification of the yield of DNA oxidative damage, consecutive adenine sequences were found to be a good launching site for photosensitizers to inject a hole in DNA, where the following rapid hole transfer between adenines causes a long-lived charge-separated state leading to DNA oxidative damage. According to the results, the essential requisites for an efficient and/or harmful photosensitizer are determined as follows: to be able to oxidize adenine to trigger hole transfer between adenines, and react rapidly with molecular oxygen following its reduction, avoiding charge recombination and making the reaction irreversible. These results will greatly help us to classify photosensitizers harmful to human health, and to design an improved photosensitizer for biochemical applications." @default.
W2023276680 created "2016-06-24" @default.
W2023276680 creator A5003297449 @default.
W2023276680 creator A5005400068 @default.
W2023276680 creator A5079322903 @default.
W2023276680 creator A5089899864 @default.
W2023276680 date "2005-09-01" @default.
W2023276680 modified "2023-10-13" @default.
W2023276680 title "Consecutive Adenine Sequences Are Potential Targets in Photosensitized DNA Damage" @default.
W2023276680 cites W1484725593 @default.
W2023276680 cites W1505726535 @default.
W2023276680 cites W1906864877 @default.
W2023276680 cites W1964249015 @default.
W2023276680 cites W1965645148 @default.
W2023276680 cites W1969408680 @default.
W2023276680 cites W1975532341 @default.
W2023276680 cites W1981234149 @default.
W2023276680 cites W1981927194 @default.
W2023276680 cites W1985531513 @default.
W2023276680 cites W1998643867 @default.
W2023276680 cites W1999271218 @default.
W2023276680 cites W1999897229 @default.
W2023276680 cites W2000774559 @default.
W2023276680 cites W2006704568 @default.
W2023276680 cites W2012970572 @default.
W2023276680 cites W2014862601 @default.
W2023276680 cites W2019624173 @default.
W2023276680 cites W2030631573 @default.
W2023276680 cites W2037155104 @default.
W2023276680 cites W2037647371 @default.
W2023276680 cites W2037937229 @default.
W2023276680 cites W2040843368 @default.
W2023276680 cites W2041379510 @default.
W2023276680 cites W2046677690 @default.
W2023276680 cites W2048191679 @default.
W2023276680 cites W2051865375 @default.
W2023276680 cites W2052381560 @default.
W2023276680 cites W2053953585 @default.
W2023276680 cites W2057738140 @default.
W2023276680 cites W2058878291 @default.
W2023276680 cites W2060912121 @default.
W2023276680 cites W2063221837 @default.
W2023276680 cites W2064807034 @default.
W2023276680 cites W2073440075 @default.
W2023276680 cites W2077690388 @default.
W2023276680 cites W2078084980 @default.
W2023276680 cites W2079085674 @default.
W2023276680 cites W2083551980 @default.
W2023276680 cites W2085134918 @default.
W2023276680 cites W2093041725 @default.
W2023276680 cites W2094341815 @default.
W2023276680 cites W2124809332 @default.
W2023276680 cites W2133096295 @default.
W2023276680 cites W2139480668 @default.
W2023276680 cites W2155143705 @default.
W2023276680 cites W2156704435 @default.
W2023276680 cites W2213178447 @default.
W2023276680 cites W2949467840 @default.
W2023276680 cites W4253332891 @default.
W2023276680 doi "https://doi.org/10.1016/j.chembiol.2005.07.005" @default.
W2023276680 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/16183029" @default.
W2023276680 hasPublicationYear "2005" @default.
W2023276680 type Work @default.
W2023276680 sameAs 2023276680 @default.
W2023276680 citedByCount "30" @default.
W2023276680 countsByYear W20232766802012 @default.
W2023276680 countsByYear W20232766802013 @default.
W2023276680 countsByYear W20232766802014 @default.
W2023276680 countsByYear W20232766802018 @default.
W2023276680 countsByYear W20232766802019 @default.
W2023276680 countsByYear W20232766802020 @default.
W2023276680 countsByYear W20232766802022 @default.
W2023276680 crossrefType "journal-article" @default.
W2023276680 hasAuthorship W2023276680A5003297449 @default.
W2023276680 hasAuthorship W2023276680A5005400068 @default.
W2023276680 hasAuthorship W2023276680A5079322903 @default.
W2023276680 hasAuthorship W2023276680A5089899864 @default.
W2023276680 hasBestOaLocation W20232766801 @default.
W2023276680 hasConcept C12554922 @default.
W2023276680 hasConcept C134121241 @default.
W2023276680 hasConcept C143425029 @default.
W2023276680 hasConcept C185592680 @default.
W2023276680 hasConcept C191897082 @default.
W2023276680 hasConcept C192562407 @default.
W2023276680 hasConcept C2776151105 @default.
W2023276680 hasConcept C2781469039 @default.
W2023276680 hasConcept C3020296196 @default.
W2023276680 hasConcept C552990157 @default.
W2023276680 hasConcept C55493867 @default.
W2023276680 hasConcept C75473681 @default.
W2023276680 hasConcept C86803240 @default.
W2023276680 hasConceptScore W2023276680C12554922 @default.
W2023276680 hasConceptScore W2023276680C134121241 @default.
W2023276680 hasConceptScore W2023276680C143425029 @default.
W2023276680 hasConceptScore W2023276680C185592680 @default.
W2023276680 hasConceptScore W2023276680C191897082 @default.
W2023276680 hasConceptScore W2023276680C192562407 @default.
W2023276680 hasConceptScore W2023276680C2776151105 @default.