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Author Report for: Wang Z

Name Class
Wang ZPaperDunham_1999_Nature_402_489
Brown_1996_Proc.Natl.Acad.Sci.U.S.A_93_1924
Cohen_1994_J.Clin.Invest_94_2377
Yi_2004_Toxicol.Lett_147_109
Yi_2004_Acta.Pharmacol.Sin_25_231
Hu_2010_Neurobiol.Aging_31_1010
Xia_2012_J.Vet.Intern.Med_26_415
Xia_2008_Insect.Biochem.Mol.Biol_38_1036
Liu_2012_Adv.Healthc.Mater_1_90
Tang_2013_J.Biol.Chem_288_1307
Meng_2013_Mar.Environ.Res_85_64
Li_2007_Auton.Neurosci_132_52
Holschneider_2013_J.Neurotrauma_30_907
Wang_2013_PLoS.One_8_e72146
Ling_2013_Nature_496_87
Qiu_2012_Nat.Genet_44_946
Zhu_2012_BMC.Genomics_13_382
Venter_2001_Science_291_1304
Feng_2005_J.Med.Chem_48_655
Zhang_2014_Food.Chem_149_99
McCormick_1991_J.Physiol_442_235
Wang_1993_J.Neurosci_13_2199
Liu_2013_Angew.Chem.Int.Ed.Engl_52_14065
Wang_2006_Neuron_50_443
Wang_1993_Life.Sci_52(5-6)_567
Shi_1999_Life.Sci_64(6-7)_583
Yang_1999_Life.Sci_64(6-7)_576
Wang_1999_Life.Sci_64(6-7)_590
Wang_1999_Life.Sci_64(6-7)_580
Liu_2014_J.Pharm.Biomed.Anal_94_215
Wang_2014_Proteins_82_695
Chen_2014_G3.(Bethesda)_4_561
Espinoza-Valles_2012_J.Bacteriol_194_2104
Jirimutu_2012_Nat.Commun_3_1202
Ma_2012_J.Bacteriol_194_2777
Mitreva_2011_Nat.Genet_43_228
Wang_2011_Nat.Genet_43_1035
Wang_2013_Genome.Announc_1_e00589
Wang_2013_Front.Microbiol_4_379
Yan_2011_Nat.Biotechnol_29_1019
Zheng_2013_Nat.Genet_45_1168
Pan_2011_J.Bacteriol_193_3152
Wang_2011_BMC.Genomics_12_453
Zou_2014_J.Insect.Sci_14_
Lei_2015_Anal.Chem_87_1974
Liu_2015_PLoS.One_10_e0122366
Wang_2015_Med.Sci.Monit_21_1408
Wang_2015_Hepatology_61_870
Yang_2015_J.Ethnopharmacol_168_279
Piper_2015_J.Lipid.Res_56_1711
Machiela_2015_Am.J.Hum.Genet_96_487
Tan_2014_Chemosphere_108_26
Wu_2010_Anal.Chim.Acta_679_56
Shen_2015_Stroke_46_2607
Wu_2015_Fungal.Genet.Biol_83_92
Wu_2015_BMC.Genomics_16_1010
Zuo_2015_Wei.Sheng.Yan.Jiu_44_943
Wang_2016_Pestic.Biochem.Physiol_127_1
Yuan_2016_Environ.Pollut_208_670
Chang_2003_Chem.Commun.(Camb)__960
Wang_2004_World.J.Gastroenterol_10_550
Yang_2016_Chem.Biodivers_13_269
Ding_2016_Nat.Prod.Res__1
Wang_2016_J.Enzyme.Inhib.Med.Chem_31_389
Wang_2012_Plant.J_72_461
Shen_2016_Int.J.Mol.Sci_17_
Yin_2010_J.Org.Chem_75_3339
Tattersall_2001_Brain.Res_904_43
He_2016_Biosens.Bioelectron_85_679
Ao_2015_PLoS.Genet_11_E1005118
Paterson_2012_Nature_492_423
Zhang_2016_J.Agr.Sci.Tech_18_1129
Zheng_2016_Appl.Biochem.Biotechnol_178_1471
Dai_2015_Sci.Rep_5_10929
Cui_2017_BMC.Genomics_18_20
Zhang_2017_Insect.Biochem.Mol.Biol_81_72
De Yan_2017_Biotechnol.Appl.Biochem_64_87
Wang_2015_Sci.Rep_5_14187
Wang_2013_Nat.Genet_45_701
Wang_2017_Sci.Total.Environ_590-591_50
Huo_2017_Sci.Rep_7_4422
Liu_2017_J.Ethnopharmacol_204_95
Wang_2017_Drug.Metab.Dispos_45_712
Depreitere_2002_Regul.Pept_106_71
Yang_2015_Proc.Natl.Acad.Sci.U.S.A_112_13213
Loftus_2005_Nature_433_865
Tang_2008_Cancer.Invest_26_178
Zhang_2001_Acta.Crystallogr.C_57_566
Yu_2008_Exp.Toxicol.Pathol_59_415
Du_2009_Med.Hypotheses_73_662
Wang_2009_Chemosphere_77_67
Wang_2010_Chemosphere_79_86
Wen_2007_Bioorg.Med.Chem.Lett_17_2123
Zhu_2010_Toxicology_270_59
Cui_2011_Analyst_136_191
Elsik_2009_Science_324_522
Hu_2011_Zhonghua.Lao.Dong.Wei.Sheng.Zhi.Ye.Bing.Za.Zhi_29_378
Ren_2011_J.Nutr.Biochem_22_691
Zhang_2011_Sheng.Li.Xue.Bao_63_245
Zhao_2011_J.Hazard.Mater_197_304
Liu_2012_Anal.Chem_84_4185
Teng_2012_J.Phys.Chem.B_116_11180
Wang_2012_Comb.Chem.High.Throughput.Screen_15_492
Xing_2012_Langmuir_28_6032
Zhang_2012_Neurosci_210_275
Zhao_2014_Biotechnol.Appl.Biochem_61_655
Wang_2018_J.Cereb.Blood.Flow.Metab__271678X18762637
Yang_2018_Aquat.Toxicol_198_231
Yan_2017_Biotechnol.Appl.Biochem_64_251
Hu_2016_Polym.Degrad.Stab_134_211
Pan_2018_Int.J.Biol.Macromol_111_1040
Zhang_2018_Toxicol.Lett_291_29
Shen_2018_Pestic.Biochem.Physiol_149_104
Cheng_2018_Sci.Rep_8_7570
Lok_2017_G3.(Bethesda)_7_755
Zheng_2018_Chirality_30_907
Wang_2016_Mol.Biol.Evol_33_3144
Reyes-Chin-Wo_2017_Nat.Commun_8_14953
Wang_2016_Aquaculture_454_148
Shi_2018_Int.J.Biol.Macromol_126_436
Wang_2019_Sci.Rep_9_411
Zhou_2018_Front.Physiol_9_1890
Wang_2019_Talanta_197_356
Zhou_2019_J.Colloid.Interface.Sci_546_211
Li_2019_Biol.Res_52_10
Zhang_2019_Chemosphere_226_817
Hu_2019_Biosens.Bioelectron_136_112
Ren_2019_Medicine.(Baltimore)_98_e15528
Jiang_2019_Phytomedicine_62_152967
Lv_2019_BMC.Neurol_19_114
Wang_2019_Polymers.(Basel)_11_
Liu_2014_Cell_157_785
Xu_2019_Eur.J.Med.Chem_181_111598
Liu_2019_Environ.Sci.Pollut.Res.Int_26_24695
Zhang_2019_Int.J.Biol.Macromol_140_358
Wang_2017_PeerJ_5_e3283
Wu_2019_Neuropsychiatr.Dis.Treat_15_3167
Shi_2020_Int.J.Biol.Macromol_144_183
Chen_2019_Fish.Shellfish.Immunol_97_283
Xu_2019_Front.Cell.Neurosci_13_518
Dong_2020_J.Appl.Toxicol__
Zheng_2020_3.Biotech_10_51
Miao_2016_Nat.Commun_7_11716
Park_2019_Nat.Struct.Mol.Biol_26_1151
Wang_2019_Nat.Plants_5_810
Li_2020_Org.Lett__
Shi_2020_Sci.Rep_10_7031
Ding_2020_J.Hazard.Mater_396_122693
Huang_2020_Pediatrics__
Zhang_2020_Int.Immunopharmacol_86_106729
Yin_2020_Neural.Plast_2020_8815195
Li_2020_Biosens.Bioelectron_169_112605
Wang_2020_ACS.Omega_5_24708
Cui_2020_Front.Microbiol_11_2204
Huang_2020_J.Sci.Food.Agric_100_4565
Lv_2020_Environ.Pollut_268_115847
Zhang_2020_3.Biotech_10_523
Mo_2011_Biochem.Biophys.Res.Commun_406_341
Wu_2020_Food.Chem__128661
Shen_2020_Front.Pharmacol_11_595254
Liu_2020_Front.Pharmacol_11_591854
Tian_2021_Sheng.Wu.Gong.Cheng.Xue.Bao_37_88
Wang_2021_Foods_10_
Wang_2021_Am.J.Sports.Med__363546520988680
Yang_2021_J.Chromatogr.B.Analyt.Technol.Biomed.Life.Sci_1170_122599
Zhao_2021_Ann.Clin.Transl.Neurol__
Lv_2021_Environ.Pollut_280_117000
Zhang_2010_Biotechnol.Lett_32_513
Wang_2021_Environ.Pollut_284_117182
Yang_2021_J.Obstet.Gynaecol.Res__
Issotina_2021_J.Hypertens__
Chen_2021_Methods.Enzymol_648_457
Wang_2018_J.Cell.Sci_131_
Wang_2020_Curr.Vasc.Pharmacol_18_358
Li_2021_Molecules_26_
Ma_2021_Mikrochim.Acta_188_294
Wang_2021_Molecules_26_
Chen_2021_Chemosphere_286_131866
Tian_2021_Enzyme.Microb.Technol_150_109870
Zhou_2021_J.Hazard.Mater_416_126142
Wang_2020_Front.Plant.Sci_11_380
Yi_2021_Front.Physiol_12_674023
Chen_2020_Sci.Total.Environ_709_136138
Zhang_2021_Bioorg.Chem_116_105387
Ma_2021_Mikrochim.Acta_188_392
Issotina_2021_Int.Immunopharmacol__108365
Liu_2022_Eur.J.Med.Chem_229_114044
Tian_2021_Biotechnol.Biofuels_14_237
Wang_2021_J.Anal.Toxicol__
Chen_2021_Spectrochim.Acta.A.Mol.Biomol.Spectrosc_269_120756
Li_2021_Chirality_33_62
Li_2020_Analyst_145_5206
Ren_2021_J.Basic.Microbiol_61_55
Fu_2021_Sci.Total.Environ_813_152617
Zheng_2019_Protein.Expr.Purif_155_1
Zhang_2020_Bioprocess.Biosyst.Eng_43_2131
Peng_2022_Eur.J.Pharmacol__174772
Tian_2022_Bioresour.Technol__126769
Cai_2022_Enzyme.Microb.Technol_155_109992
Zhang_2022_J.Toxicol.Sci_47_61
Cao_2022_Food.Chem_381_132282
Li_2021_Front.Aging.Neurosci_13_770948
Wang_2022_J.Agric.Food.Chem_70_2520
Li_2022_BMC.Genomics_23_185
Wang_2022_Anal.Chem__
Zhang_2022_Oxid.Med.Cell.Longev_2022_4594956
Chen_2022_Molecules_27_2420
He_2022_J.Agric.Food.Chem__
Liu_2022_Nanomaterials.(Basel)_12_
Zhang_2022_Bioorg.Chem_125_105844
Tian_2022_Enzyme.Microb.Technol_160_110072
Yu_2022_J.Dairy.Sci__
Zhang_2022_J.Hazard.Mater_437_129406
Wang_2022_Front.Nutr_9_861097
Wang_2022_Bioorg.Chem_127_105993
Wei_2022_Chemosphere__135700
Cheng_2018_Process.Biochem_69_92
Dai_2022_Environ.Sci.Pollut.Res.Int__
Wang_2022_Front.Nutr_9_933193
Zhang_2022_Eur.J.Med.Chem_240_114606
Ji_2020_Environ.Pollut_264_114747
Qiao_2022_J.Hazard.Mater_424_127417
Ji_2021_Br.J.Clin.Pharmacol_87_2247
Zhang_2022_Eur.J.Med.Chem_242_114695
Zhuang_2022_Animals.(Basel)_12_
Liu_2022_Environ.Sci.Pollut.Res.Int_30_12522
Wang_2022_Front.Vet.Sci_9_1004841
Yin_2022_Front.Nutr_9_1018733
Shi_2022_Transl.Pediatr_11_1717
Chen_2022_Nat.Commun_13_7138
Mostofa_2022_Plant.Cell.Physiol__
Yuan_2019_Environ.Pollut_250_58
Wu_2022_Front.Pharmacol_13_1036030
Yao_2022_Plant.J_111_117
Sun_2022_Front.Pharmacol_13_1043397
Wang_2022_Gels_8_
Wang_2022_Int.J.Mol.Sci_24_
Ventura_2015_EBioMedicine_2_808
Chen_2023_Analyst__
Yang_2023_Environ.Sci.Pollut.Res.Int__
Fan_2023_Plant.J_113_772
Wang_2023_Sci.Total.Environ__163043
Zhang_2023_Front.Bioeng.Biotechnol_11_1158348
Fang_2023_3.Biotech_13_138
Jiang_2023_J.Food.Sci__
Liu_2023_EMBO.J__e112998
Pang_2023_Spectrochim.Acta.A.Mol.Biomol.Spectrosc_299_122886
Wu_2020_Chirality_32_231
Tang_2023_Environ.Microbiol__
Zeng_2023_Scand.J.Rheumatol__1
Luo_2023_Chem.Biol.Interact__110612
Ma_2023_Am.J.Physiol.Gastrointest.Liver.Physiol__
Bava_2023_Brain.Sci_13_
Zhang_2023_Metabolism__155656
Tong_2023_Food.Chem_429_136945
Huang_2023_Food.Chem_429_136943
Liu_2023_Gut.Microbes_15_2241204
Wang_2023_Proc.Natl.Acad.Sci.U.S.A_120_e2222036120
Zhang_2021_Appl.Biochem.Biotechnol_193_717
Zhu_2023_Inflammopharmacology__
Wang_2023_ACS.Chem.Neurosci__
Zhang_2023_Food.Chem_431_137164
Wang_2023_ACS.Appl.Mater.Interfaces__
Guo_2021_Nat.Commun_12_2046
Dey_2023_J.Proteome.Res__
He_2023_Ecotoxicol.Environ.Saf_269_115799
Wang_2012_World.J.Microbiol.Biotechnol_28_2395
Wang_2023_Enzyme.Microb.Technol_170_110286
Li_2023_Plant.Physiol.Biochem_206_108140
Chen_2024_Sci.Total.Environ__169866
Ruan_2024_J.Control.Release__
Wang_2024_Toxins.(Basel)_16_3
Zhang_2024_Mikrochim.Acta_191_119
Liu_2022_Chemosphere_287_132019
Liu_2024_Lipids.Health.Dis_23_44
Wang_2024_Environ.Int_185_108494
Li_2024_Food.Res.Int_180_114059
Wang_1994_Zhonghua.Er.Bi.Yan.Hou.Ke.Za.Zhi_29_92
Padungtod_1999_Am.J.Ind.Med_36_379

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