| [1] | 赵明惠. 海南岛及雷州半岛埃及伊蚊和白纹伊蚊种群遗传特征和宏病毒组研究[D]. 北京: 军事科学院, 2023. doi: 10.27193/d.cnki.gjsky.2023.000164 |
| [2] | 高强, 冷培恩. 登革热防控的现状与展望[J]. 中国热带医学, 2024, 24(1): 40 − 48. doi: 10.13604/j.cnki.46-1064/r.2024.01.08 |
| [3] | 刘鲁宏. 论登革热的传播模式、蚊媒及防控[J]. 临床医药文献电子杂志, 2018, 5(13): 188 − 189. doi: 10.16281/j.cnki.jocml.2018.13.155 |
| [4] | 兰学梅, 魏春, 朱进, 等. 中国–老挝登革热重点地区埃及伊蚊孳生习性及杀虫剂抗性水平比较研究[J]. 中国媒介生物学及控制杂志, 2023, 34(2): 238 − 243. doi: 10.11853/j.issn.1003.8280.2023.02.016 |
| [5] | 李雅姝, 唐建霞, 朱国鼎. 蚊虫杀虫剂代谢抗性研究进展[J]. 中国热带医学, 2021, 21(4): 375 − 379. doi: 10.13604/j.cnki.46-1064/r.2021.04.15 |
| [6] | 张腾云, 徐文, 张鸣姗, 等. 超高效液相色谱–串联质谱法检测东寨港海水中磺胺类药物残留[J]. 热带生物学报, 2019, 10(2): 197 − 203. doi: 10.15886/j.cnki.rdswxb.2019.02.016 |
| [7] | 张筑宏, 吴接呈, 骆焱平. 光活化农药作用机理的研究进展[J]. 武汉工程大学学报, 2020, 42(1): 18 − 27. doi: 10.19843/j.cnki.CN42-1779/TQ.201908007 |
| [8] | 杨静, 廖美德. 光活化农药的研究进展[J]. 现代农药, 2014, 13(3): 11 − 16. doi: 10.3969/j.issn.1671-5284.2014.03.003 |
| [9] | ZHANG W J, LV Y X, HUO F J, et al. Photoactivation inducing multifunctional coupling of fluorophore for efficient tumor therapy in situ[J]. Advanced Materials, 2024, 36(23): 2314021. doi: 10.1002/adma.202314021 |
| [10] | NOVOHRADSKY V, MARKOVA L, KOSTRHUNOVA H, et al. A cyclometalated IrIII complex conjugated to a coumarin derivative is a potent photodynamic agent against prostate differentiated and tumorigenic cancer stem cells[J]. Chemistry: A European Journal, 2021, 27(33): 8547 − 8556. doi: 10.1002/chem.202100568 |
| [11] | OLIVEIRA H, ARAÚJO P, PEREIRA A R, et al. Photoactivated cell-killing amino-based flavylium compounds[J]. Scientific Reports, 2021, 11(1): 22005. doi: 10.1038/s41598-021-01485-y |
| [12] | TIAN Y, WANG L, QIAN Y Y, et al. DNA-Targeting bioactive photosensitizer for chemo-photodynamic therapy of malignant tumor[J]. ACS Materials Letters, 2024, 6(3): 969 − 975. doi: 10.1021/acsmaterialslett.3c01511 |
| [13] | BEN AMOR T, JORI G. Sunlight-activated insecticides: historical background and mechanisms of phototoxic activity[J]. Insect Biochemistry and Molecular Biology, 2000, 30(10): 915 − 925. doi: 10.1016/S0965-1748(00)00072-2 |
| [14] | BRAGA G Ú L, SILVA-JUNIOR G J, BRANCINI G T P, et al. Photoantimicrobials in agriculture[J]. Journal of Photochemistry and Photobiology B: Biology, 2022, 235: 112548. doi: 10.1016/j.jphotobiol.2022.112548 |
| [15] | GONG Z X, YU T Z, CAI Z, et al. UV/esterase dual responsive nanosystems based on protoporphyrin IX-polyethylene glycol monomethyl ether for enhanced photodynamic bactericidal and herbicidal effects[J]. European Polymer Journal, 2024, 215: 113213. doi: 10.1016/j.eurpolymj.2024.113213 |
| [16] | XU Q, FENG H, SHAO X S. Light-induced activities of novel Naphtho[1, 8-ef]isoindole-7, 8, 10(9H)-trione and Oxoisoaporphine Derivatives towards Mosquito Larvae[J]. Bioorganic & Medicinal Chemistry Letters, 2021, 15(48): 128225. doi: 10.1016/j.bmcl.2021.128225 |
| [17] | WU J C, WANG L Y, ZHANG Y F, et al. Synthesis and Photoactivated Toxicity of 2-Thiophenylfuranocoumarin Induce Midgut Damage and Apoptosis in Aedes aegypti Larvae[J]. Journal of Agricultural and Food Chemistry, 2021, 69(3): 1091 − 1106. doi: 10.1021/acs.jafc.0c07237 |
| [18] | FABRIS C, OUÉDRAOGO R K, COPPELLOTTI O, et al. Efficacy of sunlight-activatable porphyrin formulates on larvae of Anopheles gambiae M and S molecular forms and An. arabiensis: A potential novel biolarvicide for integrated malaria vector control[J]. Acta Tropica, 2012, 123(3): 239 − 243. doi: 10.1016/j.actatropica.2012.05.011 |
| [19] | SINGH D K, SINGH D J. Photoactivated chlorophyllin and acetylcholinesterase/ cytochrome oxidase activity in Fasciola gigantica cercaria larvae[J]. Pharmacognosy Journal, 2018, 10(4): 768 − 772. doi: 10.5530/pj.2018.4.129 |
| [20] | KOZURKOVA M, SABOLOVA D, KRISTIAN P. A new look at 9-substituted acridines with various biological activities[J]. Journal of Applied Toxicology, 2021, 41(1): 175 − 189. doi: 10.1002/jat.4072 |
| [21] | XIAO X, GAO Q, WANG L Y, et al. Photoactivated 9-methylacridine destroys midgut tissues of Aedes aegypti larvae by targeting ROS-mediated apoptosis in the mitochondrial pathway of midgut cells[J]. Journal of Photochemistry and Photobiology B: Biology, 2024, 254: 112893. doi: 10.1016/j.jphotobiol.2024.112893 |
| [22] | DE OLIVEIRA VIANA J, SOUZA E S, SBARAINI N, et al. Scaffold repositioning of Spiro-acridine derivatives as fungi Chitinase inhibitor by target fishing and in vitro studies[J]. Scientific Reports, 2023, 13(1): 7320. doi: 10.1038/s41598-023-33279-9 |
| [23] | 王丕玉, 董利民, 吴超, 等. 云南省埃及伊蚊实验室种群的建立[J]. 医学动物防制, 2006, 22(10): 735 − 736. doi: 10.3969/j.issn.1003-6245.2006.10.015 |
| [24] | 余森泉, 董存柱, 苏绿, 等. 16种含马兜铃内酰胺衍生物类中药甲醇提取物对家蝇和埃及伊蚊活性筛选[J]. 热带作物学报, 2019, 40(5): 1002 − 1007. doi: 10.3969/j.issn.1000-2561.2019.05.024 |
| [25] | 吴岳捷. 槟榔碱对埃及伊蚊跨代发育毒性分析及对其几丁质酶的抑制作用研究[D]. 海口: 海南大学, 2023. doi: 10.27073/d.cnki.ghadu.2023.000576 |
| [26] | 李迅, 刘彤霄, 李隆琦, 等. 薄荷醇对果蝇产卵驱避作用及毒杀效果[J]. 昆虫学报, 2024, 67(7): 964 − 975. doi: 10.16380/j.kcxb.2024.07.007 |
| [27] | 徐成滨, 王宇心, 孔伟浩, 等. 溴氰虫酰胺对羊角月牙藻的急性毒性效应[J]. 热带生物学报, 2019, 10(2): 135 − 139. doi: 10.15886/j.cnki.rdswxb.2019.02.006 |
| [28] | MASSIOT J, ROSILIO V, MAKKY A. Photo-triggerable liposomal drug delivery systems: from simple porphyrin insertion in the lipid bilayer towards supramolecular assemblies of lipid-porphyrin conjugates[J]. Journal of Materials Chemistry B, 2019, 7(11): 1805 − 1823. doi: 10.1039/C9TB00015A |
| [29] | DICHIARA M, PREZZAVENTO O, MARRAZZO A, et al. Recent advances in drug discovery of phototherapeutic non-porphyrinic anticancer agents[J]. European Journal of Medicinal Chemistry, 2017, 142: 459 − 485. doi: 10.1016/j.ejmech.2017.08.070 |
| [30] | 徐汉虹, 田永清. 光活化农药[M]. 北京: 化学工业出版社, 2008: 163. |
| [31] | 何绍雄, 王殿英, 史桂兰, 等. 9-(对甲苯胺基)吖啶的代谢研究[J]. 中国药学杂志, 1982, 17(4): 56. |