PMID-sentid Pub_year Sent_text comp_official_name comp_offsetprotein_name organism prot_offset 35533403-7 2022 For TCBQ, the chlorine atoms cause the olefinic carbons to carry more positive atomic charges, and then, HO2- preferred to add to the olefinic carbons, which might induce the formation of the hydroxyl radical ( OH). Carbon 48-55 heme oxygenase 2 Homo sapiens 105-108 35533403-4 2022 For p-BQ, the nucleophilic attack of HO2-, CH3OO-, PMS, and PAA might prefer to occur on the carbonyl carbons, which have more positive atomic charges. Carbon 102-109 heme oxygenase 2 Homo sapiens 37-40 35533403-7 2022 For TCBQ, the chlorine atoms cause the olefinic carbons to carry more positive atomic charges, and then, HO2- preferred to add to the olefinic carbons, which might induce the formation of the hydroxyl radical ( OH). Carbon 143-150 heme oxygenase 2 Homo sapiens 105-108 23822586-7 2013 The abstraction from the gamma carbon by HO2 is slowest, although proceeding over the lowest barriers, due to the important influence of transition state entropies. Carbon 31-37 heme oxygenase 2 Homo sapiens 41-44 29533404-8 2018 Further above 750 K, the calculated high pressure limit rate constants indicate that the total contribution from delta carbon sites (Cdelta) is predominant for hydrogen atom abstraction by the H atom and HO2 radical. Carbon 119-125 heme oxygenase 2 Homo sapiens 204-207 25072999-2 2014 Titration of the carbon-centered radical, formed following the initial OH abstraction, with oxygen to give HO2 and an imine, followed by conversion of HO2 to OH by reaction with NO, resulted in biexponential OH decay traces on a millisecond time scale. Carbon 17-23 heme oxygenase 2 Homo sapiens 107-110 25072999-2 2014 Titration of the carbon-centered radical, formed following the initial OH abstraction, with oxygen to give HO2 and an imine, followed by conversion of HO2 to OH by reaction with NO, resulted in biexponential OH decay traces on a millisecond time scale. Carbon 17-23 heme oxygenase 2 Homo sapiens 151-154 30688319-4 2019 In this work, we find that carbon plays an important synergistic role in improving the performance of La1-xSrxCoO3-delta (0 <= x <= 1) electrocatalysts through the activation of O2 and spillover of radical oxygen intermediates, HO2- and O2-, which is further reduced through chemical decomposition of HO2- on the perovskite surface. Carbon 27-33 heme oxygenase 2 Homo sapiens 234-237 30688319-4 2019 In this work, we find that carbon plays an important synergistic role in improving the performance of La1-xSrxCoO3-delta (0 <= x <= 1) electrocatalysts through the activation of O2 and spillover of radical oxygen intermediates, HO2- and O2-, which is further reduced through chemical decomposition of HO2- on the perovskite surface. Carbon 27-33 heme oxygenase 2 Homo sapiens 307-310 28544901-2 2017 The highly graphitized multi-walled carbon nanotubes g-MWCNTs modified electrode was prepared for the in-situ electrochemical generation of HO2-. Carbon 36-42 heme oxygenase 2 Homo sapiens 140-143 23713783-7 2013 Results of the theoretically calculated rate coefficients indicate that the hydrogen abstraction by HO2 from the C2 carbon of both MTHF and DMTHF is the most dominant path among all reaction pathways attributed to its lowest barrier height. Carbon 116-122 heme oxygenase 2 Homo sapiens 100-103 16833760-11 2005 On the other hand, an RRKM-master equation analysis shows that hot alpha-hydroxy-alkylperoxyls formed by the addition of O(2) to C(1)-, C(2)-, and C(3)-alpha-hydroxy-alkyl radicals will quasi-uniquely fragment to HO2* plus the carbonyl under all atmospheric conditions. Carbon 129-130 heme oxygenase 2 Homo sapiens 213-216 16833760-11 2005 On the other hand, an RRKM-master equation analysis shows that hot alpha-hydroxy-alkylperoxyls formed by the addition of O(2) to C(1)-, C(2)-, and C(3)-alpha-hydroxy-alkyl radicals will quasi-uniquely fragment to HO2* plus the carbonyl under all atmospheric conditions. Carbon 136-137 heme oxygenase 2 Homo sapiens 213-216