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Author Report for: Xu L

Name Class
Xu LFull_nameXu Li
First_nameLi
AddressMailResearch Center for Eco-Environmental Sciences; Chinese Academy of Sciences; State Key Laboratory of Environmental Chemistry and Ecotoxicology, Beijing
CountryChina
E_maillixu@rcees.ac.cn
PaperXu_2010_Acta.Crystallogr.Sect.F.Struct.Biol.Cryst.Commun_66_1579
Xu_2012_Zhongguo.Zhong.Yao.Za.Zhi_37_2943
Huang_2013_Biosens.Bioelectron_45C_292
Leon_2013_J.Virol_87_1957
Zheng_2013_Nat.Commun_4_1424
Chen_2012_Clin.Transl.Sci_5_27
Li_2013_BMC.Biotechnol_13_92
Shao_2013_J.Ind.Microbiol.Biotechnol_40_1211
Li_2013_ScientificWorldJournal_2013_364730
Kuo_2005_J.Pharmacol.Exp.Ther_314_455
Wu_2004_J.Pharmacol.Exp.Ther_311_80
Wu_2004_J.Biol.Chem_279_37842
Xu_2014_Transgenic.Res_23_389
Dong_2014_Cogn.Affect.Behav.Neurosci_14_879
Xu_2014_Pest.Manag.Sci_70_1118
Zhou_2014_Biomed.Chromatogr_28_994
Bi_2014_J.Mol.Neurosci_53_461
Wang_2014_ScientificWorldJournal_2014_382581
Shao_2014_Int.J.Mol.Sci_15_16885
Zha_2014_Biochimie_105_165
Guan_2012_J.Bacteriol_194_6975
Li_2010_Nature_463_311
Zheng_2011_PLoS.ONE_6_e20506
Wang_2010_Infect.Immun_78_3883
Zhang_2014_Genome.Announc_2_e00360
Feng_2014_Chem.Commun.(Camb)_50_14519
Bi_2010_Planta.Med_76_1525
Bi_2012_PLoS.One_7_e51670
Bi_2012_Planta.Med_78_122
Xu_2015_Mar.Drugs_13_3653
Hongming_2015_Braz.J.Microbiol_46_425
Wang_2015_Microbiol.Res_178_27
Liu_2010_Toxicology_276_115
Chen_2015_Mol.Plant_8_1536
Huang_2015_Appl.Biochem.Biotechnol_177_36
Yang_2015_J.Microbiol.Biotechnol_25_1880
Li_2010_BMC.Genomics_11_446
XuL_2016_Chem.Biol.Interact_259_282
Wang_2016_J.Neurol.Neurosurg.Psychiatry_87_993
Luo_2017_J.Med.Food_20_180
Lian_2017_Molecules_22_
Xu_2017_Insect.Mol.Biol_26_277
Xu_2008_J.Chromatogr.A_1205_158
Chen_2017_Sci.Rep_7_7758
Yang_2017_PLoS.One_12_e0184581
Zheng_2015_Genome.Announc_3_
Raz_2006_Diabetologia_49_2564
Yan_2008_Wei.Sheng.Wu.Xue.Bao_48_184
Liu_2008_Wei.Sheng.Wu.Xue.Bao_48_1543
Shu_2009_Biotechnol.Prog_25_409
Xu_2008_Diabetes.Obes.Metab_10_1212
Huang_2007_Electrophoresis_28_2758
Liu_2010_Biotechnol.Lett_32_255
Xu_2010_Biotechnol.Lett_32_269
Guo_2010_PLoS.One_5_
Liu_2010_Appl.Microbiol.Biotechnol_88_885
Liu_2011_Bioresour.Technol_102_10414
Wang_2009_PLoS.ONE_4_E7646
Zhao_2011_Wei.Sheng.Wu.Xue.Bao_51_1374
Meng_2012_Molecules_17_11303
Pan_2012_J.Agric.Food.Chem_60_9673
Teng_2012_J.Phys.Chem.B_116_11180
Wang_2012_Appl.Biochem.Biotechnol_166_1355
Zheng_2012_Bioresour.Technol_110_224
Han_2017_Nat.Commun_8_2106
Lian_2017_Front.Aging.Neurosci_9_409
Xu_2018_J.Environ.Sci.(China)_63_260
Zhang_2018_Talanta_183_258
Li_2018_Appl.Environ.Microbiol_84_
Xu_2018_Mediators.Inflamm_2018_5201652
Xie_2018_Environ.Pollut_235_965
Wei_2018_Oncol.Lett_16_775
Luo_2018_Cancer.Biomark_21_461
Zhang_2018_Chemosphere_219_740
Fu_2018_Environ.Sci.Technol_52_8065
Wu_2018_Liver.Int_38_1930
Ren_2018_ACS.Chem.Neurosci_9_1215
Fan_2013_Nat.Commun_4_1426
Ming_2013_Genome.Biol_14_R41
Suo_2019_Mater.Sci.Eng.C.Mater.Biol.Appl_96_356
Shi_2019_Genes.(Basel)_10_
Sann_2008_J.Neurosci_28_2366
Suo_2019_J.Colloid.Interface.Sci_553_494
Huang_2011_Bioorg.Med.Chem_19_7158
Luo_2019_Chem.Biol.Interact_13ChEPon_308_164
Sha_2019_Chem.Biol.Interact_13ChEPon_309_108686
Tang_2017_Int.J.Cancer_140_1620
Zhou_2019_Molecules_24_
Shao_2019_Fitoterapia__104465
Hu_2019_FASEB.J_33_532
Chen_2020_Environ.Int_134_105193
Wu_2020_FASEB.J_34_1983
Hines_2020_mSphere_5_
Zhang_2020_Int.Immunopharmacol_86_106729
Lu_2020_Front.Immunol_11_1388
Xu_2020_Pestic.Biochem.Physiol_169_104649
Sha_2020_Sci.Total.Environ_752_141784
Li_2020_Molecules_25_4658
Zhong_2013_Lipids.Health.Dis_12_65
Lu_2021_Vet.Res_52_3
Zhang_2021_Colloids.Surf.B.Biointerfaces_200_111584
Liu_2021_Food.Funct__
Xiong_2021_Nutrition_86_111155
Wang_2021_Planta.Med__
Xu_2015_ACS.Appl.Mater.Interfaces_7_27602
Suo_2021_Colloids.Surf.B.Biointerfaces_206_111960
Cui_2021_Food.Chem_366_130523
Huang_2021_J.Hazard.Mater_421_126830
Qin_2021_J.Colloid.Interface.Sci_606_1229
Xu_2021_Food.Chem_372_131256
Tian_2021_Neurochem.Int_150_105197
Zhu_2021_Biosensors.(Basel)_11_
Xiang_2021_Foods_10_
Xie_2021_J.Neurochem_158_1254
Nie_2016_BMC.Genomics_17_389
Zhang_2020_Nat.Commun_11_3719
Chen_2022_Ann.Transl.Med_10_303
Zhao_2022_Int.J.Mol.Sci_23_5822
Guan_2022_Biomed.Pharmacother_152_113248
Huang_2022_Science_377_eabq3297
He_2022_Metabolites_12_
Chen_2020_Biol.Open_9_bio048462
Luo_2022_PLoS.One_17_e0273583
Li_2022_Molecules_27_6800
Gao_2022_J.Insect.Sci_22_
Liu_2022_Food.Chem_406_134506
Suo_2022_Langmuir__
Xia_2022_Anal.Chem__
Ji_2022_Appl.Biochem.Biotechnol_194_1290
He_2022_Food.Chem_408_135236
Huang_2023_Appl.Environ.Microbiol__e0187822
Huang_2022_Front.Physiol_13_1091232
Xu_2023_Comp.Biochem.Physiol.C.Toxicol.Pharmacol__109562
Li_2023_Front.Plant.Sci_14_1074184
Pineau_2017_New.Phytol_215_173
Yang_2015_BMC.Biotechnol_15_94
Hu_2023_Int.J.Mol.Sci_24_8924
Huang_2023_Int.J.Mol.Sci_24_8581
Pruitt_2023_bioRxiv__
Si_2023_Front.Pharmacol_14_1227496
Kang_2023_Anal.Chim.Acta_1282_341932
Li_2023_Anal.Chem_95_17577
Li_2023_Sens.Actuators.B.Chem_377_133122
Li_2023_J.Ethnopharmacol__117564
Wen_2023_Sci.Transl.Med_15_eade7287
Xu_2020_J.Agric.Food.Chem_68_10071
Wu_2024_Biomed.Pharmacother_172_116301
Huang_2024_Biotechnol.Biofuels.Bioprod_17_33
Zhang_2024_Poult.Sci_103_103612
He_1998_Hum.Exp.Toxicol_17_40

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