·1468·                            精细化工   FINE CHEMICALS                                 第 37 卷

            DPPH•反应体系中，增大唑环共轭结构能够提高                           [13]  PANDEY D  K, KHAKE S M, GONNADE  R G,  et al. Mono- and
                                                                   binuclear  palladacycles  via  regioselective  C–H  bond  activation:
            吡嗪-唑联芳化合物的抗氧化活性。在抑制 AAPH
                                                                   syntheses,  mechanistic  insights  and  catalytic  activity  in  direct
                                            +
            引发的 DNA 氧化反应及淬灭 ABTS •和 DPPH•体系                        arylation of azoles[J]. RSC Advances, 2015, 5(99): 81502-81514.
            中，3 个吡嗪-唑联芳化合物的顺序均为Ⅲc>Ⅲb>                         [14]  KHAKE  S  M,  JAGTAP  R  A,  DANGAT  Y  B,  et al.  Mechanistic
                                                                   insights  into  pincer-ligated  palladium-catalyzed  arylation  of  azoles
            Ⅲa；在抑制 HO•和 GS•引发的 DNA 氧化反应体系                          with  aryl  iodides:  Evidence  of  a  PdⅡ–PdⅣ–PdⅡ pathway[J].
            中，3 个吡嗪-唑联芳化合物抗氧化性能遵循Ⅲb>                              Organometallics, 2016, 35(6): 875-886.
                                                               [15]  WU  Z  Y,  CHANG  C  C,  TANG  X  T,  et al.  Phosphine-promoted
            Ⅲc>Ⅲa 的规律。                                             amide  bond  formation  reactions  from  carboxylic  acids  and
                （3）3 个吡嗪-唑联芳化合物不仅具有很好的                            tetraalkylthiuram  disulfides[J].  Chemistry  Select,  2018,  3(46):
                                                                   13038-13041.
            抑制自由基引发 DNA 氧化反应能力，还展现了一定                          [16]  XI G L (席高磊), XU K J (许克静), WANG H W (王宏伟), et al.
            的捕获自由基能力，具有一定的研究前景。这些实                                 Antioxidant  properties  of  4-methyl-7-hydroxycoumarin  and
            验数据为今后继续从事吡嗪-唑联芳类化合物的                                 derivative[J]. Fine Chemicals (精细化工), 2019, 36(6): 1159-1165.
                                                               [17]  XI  G  L  (席高磊),  WANG  Z  W  (王正伟),  MA  F  (马飞),  et al.
            合成及抗氧化性能研究提供了参考。                                       Synthesis  and  antioxidant  properties  of  ferrocenyl  imid-azo[1,
                                                                   2-a]pyridine  compounds[J].  Fine  Chemicals  (精细化工),  2019,
            参考文献：                                                  36(2): 332-338, 377.
                                                               [18]  MOGHADDAM  F  M,  DEKAMIN  M  G,  GHAFFARZADEH  M.
            [1]   ABU-HASHEM A A, EL-SHAZLY M. Synthesis of new isoxazole-,   FeCl 3 as an efficient and new catalyst for the thia-fries rearrangement
                 pyridazine-,  pyrimidopyrazines  and  their  antiinflammatory  and   of aryl sulfinates[J]. Tetrahedron Letters, 2001, 42(45): 8119-8121.
                 analgesic activity[J]. Medicinal Chemistry, 2018, 14(4): 356-371.     [19]  TANG  L  N,  PANG  Y  L,  YAN  Q,  et al.  Synthesis  of  coumestan
            [2]   KAUR  A,  WAKODE  S,  PATHAK  D  P,  et al.  Synthesis,   derivatives  via  FeCl 3-mediated  oxidative  ring  closure  of 4-hydroxy
                 cyclooxygenase-2  inhibition,  anti-inflammatory  evaluation  and   coumarins[J]. Journal of Organic Chemistry, 2011, 76(19): 2744-2752.
                 docking study of substituted-N-(3,4,5-trimethoxyphenyl)-benzo[d]oxazole   [20]  SHAO  J,  GEACINTOV  N  E,  SHAFIROVICH  V.  Oxidative
                 derivatives[J]. Medicinal Chemistry, 2018, 14(7): 660-673.     modification of guanine bases initiated by oxyl radicals derived from
            [3]   KUSSTATSCHER  P,  CERNAVA  T,  LIEBMINGER  S,  et al.   photolysis  of  azo  compounds[J].  Journal  of  Physical  Chemistry  B,
                 Replacing  conventional  decontamination  of  hatching  eggs  with  a   2010, 114(19): 6685-6692.
                 natural defense strategy based on antimicrobial, volatile pyrazines[J].   [21]  SPEISKY H, GÓMEZ M, BURGOS-BRAVO F, et al. Generation of
                 Scientific Reports, 2017, 7(1): 13253-13260.      superoxide  radicals  by  copper-glutathione  complexes:  Redox-
            [4]   ARSHAD M. Synthesis, characterization, and antimicrobial assessment   consequences  associated  with  their  interaction  with  reduced
                 of some computationally bioactive 1, 2-oxazole derivatives[J]. Russian   glutathione[J].  Bioorganic  &  Medicinal  Chemistry,  2009,  17(5):
                 Journal of General Chemistry, 2018, 88(9): 1886-1891.     1803-1810.
            [5]   GABR  I  M, EL-ASMY H A,  EMMAM  M  S,  et al.  Synthesis,   [22]  VALKO  M,  VONDRAKOVA  D,  LAWSON  M,  et  al.  Metals,
                 characterization  and  anticancer  activity  of  3-aminopyrazine-2-   oxidative  stress  and  neurodegenerative  disorders[J].  Molecular  &
                 carboxylic  acid  transition  metal  complexes[J].  Transition  Metal   Cellular Biochemistry, 2010, 345(1/2): 91-104.
                 Chemistry, 2009, 34(4): 409-418.              [23]  XI G L, LIU Z Q. Coumarin sharing the benzene ring with quinoline
            [6]   AHMED M H, EL-HASHASH M A, MARZOUK M I, et al. Design,   for  quenching  radicals  and  inhibiting  DNA  oxidation[J].  European
                 synthesis, and biological evaluation of novel pyrazole, oxazole, and   Journal of Medicinal Chemistry, 2015, 95: 416-423.
                 pyridine  derivatives  as  potential  anticancer  agents  using  mixed   [24]  XI G L, LIU Z Q. Coumarin-fused-coumarin: Antioxidant story from
                 chalcone[J]. Journal of Heterocyclic Chemistry, 2019, 56(1): 114-123.     N, N-dimethylamino and hydroxyl groups[J]. Journal of Agricultural
            [7]   KUCEROVA-CHLUPACOVA  M,  DOSEDEL  M,  KUNES  J,  et al.   and Food Chemistry, 2015, 63(13): 3516-3523.
                 Chalcones and their pyrazine analogs: synthesis, inhibition of aldose   [25]  GONG  X  R,  XI  G  L,  LIU  Z  Q.  Activity  of  coumarin  oxadiazole
                 reductase,  antioxidant  activity,  and  molecular  docking  study[J].   appended  phenol  in  inhibiting  DNA  oxidation  and  scavenging
                 Monatshefte für Chemie-Chemical Monthly, 2018, 149(5): 921-929.    radical[J]. Tetrahedron Letters, 2015, 56: 6257-6261.
            [8]   MATHEW J E,  DIVYA  G, VACHALA S D,  et al.  Synthesis  and   [26]  HE J H, LI J Z, LIU Z Q. Synthesis of licochalcones and inhibition
                 characterisation  of  novel  2,  4-diphenyloxazole  derivatives  and   effects on radical-induced oxidation of DNA[J]. Medicinal Chemistry
                 evaluation  of  their  in  vitro  antioxidant  and  anticancer  activity[J].   Research, 2013, 22(6): 2847-2854.
                 Journal of Pharmacy Research, 2013, 6(1): 210-213.     [27]  NABI  G,  LIU  Z  Q.  Ferrocenyl  chalcones:  Antioxidants  or
            [9]   WU H M, ZHOU K, WU T, et al. Synthesis of pyrazine-1, 3-thiazine   prooxidants  in  radical-induced  oxidation  of  DNA?[J].  Medicinal
                 hybrid  analogues  as  antiviral  agent  against  HIV-1,  influenza  A   Chemistry Research, 2012, 21(10): 3015-3020.
                 (H1N1), enterovirus 71 (EV71), and coxsackievirus B3 (CVB3)[J].   [28]  XIAO  C,  SONG  Z  G,  LIU  Z  Q.  Synthesis  of  methyl-substituted
                 Chemical Biology & Drug Design, 2016, 88(3): 411-421.     xanth0otoxol  to  clarify  prooxidant  effect  of  methyl  on
            [10]  DE  GAETANO  M,  BUTLER  E,  GAHANM  K,  et al.  Asymmetric   radical-induced oxidation of DNA[J]. European Journal of Medicinal
                 synthesis  and  biological  evaluation  of  imidazole-  and  oxazole-   Chemistry, 2010, 45: 2559-2566.
                 containing  synthetic  lipoxin  A4  mimetics  (sLXms)[J].  European   [29]  LI  Y  F,  LIU  Z  Q,  LUO  X  Y.  Properties  of  synthetic
                 Journal of Medicinal Chemistry, 2019, 162: 80-108.     homoisoflavonoids to reduce oxidants and to protect linoleic acid and
            [11]  TANGELLAMUDI  N  D,  SHINDE  S  B,  POOLADANDA  V,  et al.   DNA  against  oxidation[J].  Journal  of  Agricultural  and  Food
                 Facile  synthesis  of  2-aryl-5-hydroxy  benzo[d]oxazoles  and  their  in   Chemistry, 2010, 58(7): 4126-4131.
                 vitro  anti-proliferative  effects  on  various  cancer  cell  lines[J].   [30]  XI G L, LIU Z Q. Coumestan inhibits radical-induced oxidation of
                 Bioorganic  &  Medicinal  Chemistry  Letters,  2018,  28(2018):  3639-   DNA:  Is  hydroxyl  a  necessary  functional  group?[J].  Journal  of
                 3647.                                             Agricultural and Food Chemistry, 2014, 62(24): 5636-5642.
            [12]  KHAKE  S  M,  SONI  V,  GONNADE  R  G,  et al.  Design  and   [31]  STOJANOVIC  S,  BREDA  O.  Elementary  reactions  of  the
                 development  of  POCN-pincer  palladium  catalysts  for  C–H  bond   antioxidant  action  of  trans-stilbene  derivatives:  resveratrol,  pinosylvin
                 arylation  of  azoles  with  aryl  iodides[J].  Dalton  Transactions, 2014,   and 4-hydroxystilbene[J]. Physical Chemistry Chemical Physics, 2002,
                 43(42): 16084-16096.                              4(5): 757-764.