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Author Report for: Wang J

Name Class
Wang JPaperWang_2005_J.Phys.Chem.B.Condens.Matter.Mater.Surf.Interfaces.Biophys_109_13761
Mulchandani_2001_Biosens.Bioelectron_16_225
Mulchandani_2001_Biosens.Bioelectron_16_433
Fan_1994_Proc.Natl.Acad.Sci.U.S.A_91_8724
Nie_1998_J.Lipid.Res_39_1127
Wang_2001_Biomacromolecules_2_700
Wang_2001_Toxicol.Sci_64_200
Wang_2002_Biochem.Biophys.Res.Commun_291_605
Wang_2002_Di.Yi.Jun.Yi.Da.Xue.Xue.Bao_22_193
Jin_2002_Nucleic.Acids.Res_30_4432
Zhou_2002_Appl.Environ.Microbiol_68_6321
Wang_2002_J.Hum.Genet_47_611
Harth_1996_Infect.Immun_64_3038
Wen_2003_Hum.Mol.Genet_12_1131
Guan_2004_J.Cell.Biochem_92_53
Lei_2004_Biotechnol.Bioeng_85_706
Yu_2005_PLoS.Biol_3_e38
Zhou_2004_J.Bacteriol_186_5147
Liu_2010_Br.J.Nutr_103_862
Wang_2011_Anal.Chim.Acta_693_1
Xia_2008_Insect.Biochem.Mol.Biol_38_1036
Chen_2012_Anal.Biochem_429_42
Zhao_2012_Am.J.Physiol.Cell.Physiol_303_C427
Delay_2012_J.Insect.Physiol_58_1626
Smith_2012_Toxicol.Sci_130_245
Chen_2013_Biosens.Bioelectron_41_163
Weber_2007_Nephrol.Dial.Transplant_22_2084
Edmondson_2009_J.Clin.Invest_119_1042
Liu_2013_Tumour.Biol_34_155
Zhou_2013_Exp.Physiol_98_67
Zhang_2013_Mol.Biol.Rep_40_2969
Yao_2002_J.Biol.Chem_277_12613
Xiu_2005_J.Biol.Chem_280_41655
Papke_2011_Neuropharmacol_60_159
Wang_2010_Mol.Pharmacol_78_1012
Wang_2012_J.Biol.Chem_287_21957
Williams_2011_Mol.Pharmacol_80_1013
Wang_2013_J.Alzheimers.Dis_33_217
Luo_2013_Food.Chem.Toxicol_60C_177
Chen_2013_Nat.Commun_4_1595
Ge_2013_Genome.Announc_1_E00003
Ling_2013_Nature_496_87
Qiu_2012_Nat.Genet_44_946
Shapiro_2013_Science_339_1063
Xu_2011_Nat.Biotechnol_29_735
Xu_2011_Nature_475_189
Zhang_2013_Science_339_456
Zhang_2012_Nature_490_49
Mural_2002_Science_296_1661
Sun_2011_J.Bacteriol_193_793
Venter_2001_Science_291_1304
Zhao_2011_J.Bacteriol_193_2666
He_2011_J.Bacteriol_193_3407
Zhang_2011_J.Bacteriol_193_4017
Wang_2004_J.Neurophysiol_91_1596
Gu_2014_Chemosphere_96_33
Zhou_2013_Nature_504_406
He_2014_J.Ethnopharmacol_151_78
Jin_2014_Bioorg.Med.Chem.Lett_24_674
Ruggieri_1995_J.Pharmacol.Exp.Ther_274_976
Wang_2000_Am.J.Physiol.Gastrointest.Liver.Physiol_279_G1059
Ji_2014_Eur.J.Med.Chem_75C_111
Williams_2011_Biochem.Pharmacol_82(8)_915
Papke_2011_Biochem.Pharmacol_82(8)_1031
Mayford_1995_Cell_81_891
Seim_2013_Nat.Commun_4_2212
Itagaki_2012_Drug.Metab.Dispos_40_1138
Solecki_2013_Neuropharmacol_75_9
Yang_2014_Neurochem.Res_39_1451
Qi_2014_BMC.Cancer_14_643
Wang_2013_Neural.Regen.Res_8_2213
Tan_2014_Appl.Biochem.Biotechnol_173_1752
Archibald_2010_Anim.Genet_41_449
Bonasio_2010_Science_329_1068
D'Souza_2011_MBio_2_e00342
Ge_2011_J.Bacteriol_193_5045
He_2010_J.Bacteriol_192_4074
Holt_2002_Science_298_129
Huang_2013_Nat.Genet_45_776
Jirimutu_2012_Nat.Commun_3_1202
Kim_2011_Nature_479_223
Li_2010_Nature_463_311
Lu_2010_J.Ind.Microbiol.Biotechnol_37_919
Nie_2006_BMC.Genomics_7_173
Nygaard_2011_Genome.Res_21_1339
Sun_2010_J.Bacteriol_192_4080
Wang_2011_Genome.Res_21_1462
Wang_2012_Dev.Cell_23_1072
Wang_2011_Nat.Genet_43_1035
Wu_2014_Gene_535_156
Wurm_2011_Proc.Natl.Acad.Sci.U.S.A_108_5679
Yan_2011_Nat.Biotechnol_29_1019
Yi_2010_PLoS.One_5_e8601
Yuan_2012_PLoS.ONE_7_E34458
Zhao_2010_Cell.Res_20_1096
Li_2011_J.Bacteriol_193_5531
Wang_2011_J.Bacteriol_193_4280
Yao_2003_Curr.Microbiol_47_272
Wang_2014_Int.J.Clin.Exp.Med_7_4427
Li_2015_Enzyme.Microb.Technol_69_46
Huang_2015_Clin.Chem_61_290
Wang_2015_J.Neurol.Neurosurg.Psychiatry_86_101
Qi_2015_Int.J.Clin.Exp.Med_8_1993
Wang_2015_Med.Sci.Monit_21_1408
Tu_2015_Sci.Rep_5_11402
Wang_2015_World.J.Gastroenterol_21_7172
Wang_2015_Anal.Sci_31_591
Wu_2015_Chem.Commun.(Camb)_51_12791
Li_2015_Eur.Neurol_74_86
Liu_2013_Wei.Sheng.Yan.Jiu_42_419
Xie_2006_Wei.Sheng.Yan.Jiu_35_339
Jia_2015_Biomed.Res.Int_2015_497462
Zhang_2015_Sci.Rep_5_15503
Zhang_2015_Acta.Pharm.Sin.B_5_67
Harada_2003_Am.J.Physiol.Endocrinol.Metab_285_E1182
Shen_2003_J.Biol.Chem_278_43870
Song_2004_DNA.Res_11_179
Strausberg_2002_Proc.Natl.Acad.Sci.U.S.A_99_16899
Wang_2005_Biochemistry_44_1953
Xie_2016_Bioorg.Med.Chem_24_1528
Weinstein_2010_Int.J.Obes.(Lond)_34_6
Lin_2016_Mar.Drugs_14_
Chen_2016_Fitoterapia_110_142
Wang_2016_J.Biomol.Struct.Dyn_34_749
Zhan_2016_J.Nat.Prod_79_760
Li_2016_J.Enzyme.Inhib.Med.Chem__1
Jex_2014_Nat.Genet_46_701
Li_2014_Antonie.Van.Leeuwenhoek_106_657
Terrapon_2014_Nat.Commun_5_3636
Wang_2014_Genome.Announc_2_e01148
Wang_2014_J.Antimicrob.Chemother_69_2658
Hu_2014_Genome.Announc_2_e00596
Huang_2009_Nat.Genet_41_1275
Jia_2013_Environ.Microbiol_15_3020
Wang_2012_Plant.J_72_461
Qi_2014_Nat.Commun_5_4340
Young_2012_Nat.Genet_44_221
Yao_2016_Bioorg.Chem_68_112
Jones_2016_Molecules_21_
Gullapalli_2010_Neurotoxicol_31_67
Wang_2017_Behav.Brain.Res_316_145
Horti_2016_J.Nucl.Med_57_1817
Wang_2016_Fitoterapia_114_7
Wang_2016_J.Neurol.Neurosurg.Psychiatry_87_993
Wang_2016_Bioorg.Med.Chem_24_4324
Yan_2016_Appl.Environ.Microbiol_82_6748
Huang_2016_Mar.Drugs_14_
Hu_2016_J.Surg.Res_206_307
Ao_2015_PLoS.Genet_11_E1005118
Paterson_2012_Nature_492_423
Zhang_2016_Biotechnol.Lett_38_1301
Xiao_2016_Cell.Death.Dis_7_e2521
Guo_2017_Pestic.Biochem.Physiol_135_64
He_2017_BMC.Genomics_18_219
Zhu_2017_Microbiology_163_175
Li_2015_Nat.Commun_6_8212
Wang_2013_Nat.Genet_45_701
Galea_2017_J.Nat.Prod_80_1264
Meng_2017_Molecules_22_
Wang_2017_Eur.J.Med.Chem_139_68
Yan_2015_Dis.Esophagus_28_164
Cheng_2017_Aquat.Toxicol_192_7
He_2017_J.Stroke.Cerebrovasc.Dis_26_2570
Chen_2017_Sci.Rep_7_13021
Hu_2016_Mol.Cell.Endocrinol_423_60
Zhang_2014_Crit.Care.Med_42_e345
Yang_2017_Reprod.Sci__1933719117737843
Rosenberg_2018_Toxicol.Lett_293_229
Gagen_2014_BMC.Microbiol_14_314
Varshney_2011_Nat.Biotechnol_30_83
Yang_2015_Proc.Natl.Acad.Sci.U.S.A_112_13213
Zhang_2016_Sci.Rep_6_23122
Mishra_2018_Biosens.Bioelectron_101_227
Chen_2005_Lin.Chuang.Er.Bi.Yan.Hou.Ke.Za.Zhi_19_370
Fridman_2005_Plant.Cell_17_1252
Tadiboyina_2005_Lipids.Health.Dis_4_26
Wu_2006_Atherosclerosis_187_65
Joshi_2006_Anal.Chem_78_331
Lei_2005_Environ.Sci.Technol_39_8853
Yang_2005_Nucleic.Acids.Res_33_6445
Yau_2006_FEBS.Lett_580_1465
Wang_2006_J.Phys.Chem.B_110_7567
Wang_2017_Nat.Ecol.Evol_1_120
Shen_2007_Diabetes.Res.Clin.Pract_75_14
Bao_2002_Genome.Res_12_689
Zhao_2008_J.Ind.Microbiol.Biotechnol_35_189
Goscinski_2008_Oncology_75_49
Nong_2008_J.Toxicol.Environ.Health.A_71_1363
Wang_2001_Anal.Chem_73_1804
Wang_2008_Environ.Sci.Technol_42_2688
Zhang_2008_J.Environ.Sci.(China)_20_364
Clark_2007_Nature_450_203
Muzny_2006_Nature_440_1194
Rahalkar_2009_Can.J.Physiol.Pharmacol_87_151
Wang_2009_PLoS.Genet_5_e1000350
Ge_2008_J.Phys.Chem.B_112_14319
Liu_2008_Chemistry_14_9951
Sun_2008_Clin.Exp.Metastasis_25_765
Wang_2009_Biosens.Bioelectron_24_2377
Wang_2008_Anal.Chem_80_8477
Wang_2008_J.Phys.Chem.B_112_3485
Wang_2009_Surg.Oncol_18_25
Wang_2008_J.Neurochem_106_1594
Wu_2008_Anim.Genet_39_564
Yu_2008_Exp.Toxicol.Pathol_59_415
Du_2009_Anal.Chem_81_9314
Duan_2010_Biomaterials_31_894
Liu_2009_Biochem.Biophys.Res.Commun_385_605
Ma_2010_Biomaterials_31_99
Wang_2009_Prostaglandins.Other.Lipid.Mediat_89_112
Wang_2010_J.Neurosci.Res_88_807
Beckstrom-Sternberg_2007_PLoS.ONE_2_E947
Chen_2007_PLoS.ONE_2_E315
Wang_2007_Arterioscler.Thromb.Vasc.Biol_27_197
Wang_2009_Int.J.Cancer_124_521
Zhu_2007_Biol.Pharm.Bull_30_532
Jin_2010_Arch.Pharm.Res_33_1641
Song_2010_Ageing.Res.Rev_9 Suppl 1_S6
Xing_2010_Ecotoxicol.Environ.Saf_73_1666
Zhu_2010_J.Appl.Microbiol_109_1469
Zuo_2010_Acta.Biochim.Pol_57_305
Tan_2011_Bioprocess.Biosyst.Eng_34_305
Yang_2011_Protein.Expr.Purif_76_59
Hillier_2004_Nature_432_695
Du_2011_Anal.Chem_83_3770
Feng_2008_PLoS.ONE_3_E4053
Hou_2008_Biol.Direct_3_26
Wang_2008_PLoS.ONE_3_E1937
Wang_2011_Mol.Cell.Proteomics_10_M111 008748
Wang_2011_Drug.Metab.Dispos_39_1329
Wang_2011_Thromb.Haemost_106_337
Butler_2017_J.Med.Chem_60_9860
Aryal_2012_Anal.Chim.Acta_723_68
Du_2012_Anal.Chem_84_1380
Surendran_2012_J.Intern.Med_272_185
Wang_2012_Exp.Neurol_236_79
Zhou_2013_Appl.Microbiol.Biotechnol_97_10399
Zhang_2018_Talanta_183_258
Zeng_2018_Chem.Sci_9_446
Gui_2018_Mol.Plant.Microbe.Interact_31_260
Wang_2018_Chem.Biol.Drug.Des_91_756
Wang_2018_Mol.Med.Rep_17_6881
Bie_2013_Arterioscler.Thromb.Vasc.Biol_33_1795
Hu_2017_Proc.Natl.Acad.Sci.U.S.A_114_7432
Li_2018_Mar.Drugs_16_
Zhang_2018_Int.J.Mol.Sci_19_
Qin_2018_Biomed.Chromatogr__e4320
Wen_2018_J.Neurosurg.Spine__1
Luo_2018_Cancer.Biomark_21_461
Pan_2017_Sci.Rep_7_44440
Yao_2017_Neurochem.Res_42_446
Zhang_2016_Sci.Rep_6_35784
Wang_2018_Phys.Chem.Chem.Phys_20_20540
He_2018_Biomed.Pharmacother_106_1404
Fan_2018_J.Biomed.Nanotechnol_14_2066
Cui_2018_Environ.Pollut_244_270
Wang_2018_Bioorg.Chem_83_477
Fan_2018_Proteome.Sci_16_17
Chen_2018_Front.Cell.Neurosci_12_396
Wang_2018_J.Ultrasound.Med_37_2191
Sun_2018_Diabetes_67_1162
Al-Mssallem_2013_Nat.Commun_4_2274
Fan_2013_Nat.Commun_4_1426
Li_2015_Nat.Biotechnol_33_524
Qin_2014_Proc.Natl.Acad.Sci.U.S.A_111_5135
You_2014_Nat.Commun_5_5594
Wang_2018_Zhonghua.Wei.Zhong.Bing.Ji.Jiu.Yi.Xue_30_1173
Zhang_2018_Medicine.(Baltimore)_97_e13714
Wang_2019_3.Biotech_9_33
Wang_2013_J.Cereb.Blood.Flow.Metab_33_1574
Zhao_2019_Evid.Based.Complement.Alternat.Med_2019_7365841
Chen_2019_Pestic.Biochem.Physiol_154_32
Yao_2019_Molecules_24_
Fan_2018_Int.J.Mol.Sci_19_
Li_2016_J.Med.Chem_59_6772
Li_2019_J.Med.Chem_62_2348
Fan_2017_Chem.Commun.(Camb)_53_4857
Tang_2019_Anal.Chim.Acta_1060_97
Zhang_2019_Oxid.Med.Cell.Longev_2019_8636835
Cao_2019_Mikrochim.Acta_186_390
Wang_2019_Appl.Microbiol.Biotechnol_103_4077
Loerch_2008_PLoS.One_3_e3329
Jiang_2019_Fitoterapia__104277
Chen_2014_Nat.Genet_46_253
Liu_2014_Cell_157_785
Guo_2014_PLoS.ONE_9_E95543
Li_2018_Arch.Microbiol_200_695
Lin_2019_Int.J.Nanomedicine_14_5817
Wang_2019_Basic.Res.Cardiol_114_41
Qi_2018_Org.Biomol.Chem_16_9046
Yan_2018_Chem.Commun.(Camb)_54_9027
Alali_2019_Chemistry_25_11892
Qi_2019_J.Nat.Med_73_769
Rojas_2019_Neurobiol.Dis__104399
Wang_2019_Virol.Sin_34_59
Wang_2019_Front.Pharmacol_10_1003
Ji_2014_Eur.J.Med.Chem_86_242
Wang_2015_PLoS.One_10_e0123986
Zhang_2020_Enzyme.Microb.Technol_132_109408
Deng_2019_Pak.J.Pharm.Sci_32_2091
Wang_2012_Appl.Microbiol.Biotechnol_96_443
Feng_2018_Biomed.Pharmacother_107_1496
Guo_2019_Oxid.Med.Cell.Longev_2019_1707218
He_2020_Pestic.Biochem.Physiol_163_227
Li_2020_Cytotech__
Wang_2020_Pestic.Biochem.Physiol_163_117
Han_2020_Bioorg.Chem_96_103646
Hou_2020_Biomed.Res.Int_2020_5370759
Song_2020_Evid.Based.Complement.Alternat.Med_2020_2804849
Shao_2020_Int.J.Mol.Sci_21_
Chen_2017_J.Infect.Dis_215_1807
Man_2020_Brain.Res_1736_146782
Wang_2014_Cell.Host.Microbe_16_328
Mu_2016_Int.J.Syst.Evol.Microbiol_66_5478
Wang_2019_Nat.Plants_5_810
Rojas_2020_Neurobiol.Dis__104863
Li_2020_Acta.Pharm.Sin.B_10_646
Yang_2020_Analyst__
Liang_2020_J.Chromatogr.A__461003
Wang_2019_Anal.Chem_91_13831
Sun_2020_Molecules_25_
Zhi_2020_J.Med.Chem__
Syal_2020_Theranostics_10_6337
Wang_2020_Insects_11_
Wang_2020_Ecol.Evol_10_4816
Lin_2020_Theranostics_10_7857
Liu_2020_Front.Cell.Dev.Biol_8_570
Wang_2020_Ecotoxicol.Environ.Saf_203_111046
Li_2020_Biosens.Bioelectron_169_112605
Zhang_2020_Evid.Based.Complement.Alternat.Med_2020_7643528
Liu_2015_Sci.Rep_5_17909
Liu_2015_J.Oleo.Sci_64_1227
Liu_2017_Food.Chem_226_165
Ming_2019_Genomics_111_1034
Wang_2015_Bioresour.Technol_184_405
Krifaton_2013_J.Hazard.Mater_244-245_429
Lv_2020_Environ.Pollut_268_115847
Dai_2020_Mar.Drugs_18_
Gong_2020_J.Biomed.Nanotechnol_16_827
Zheng_2021_Carbohydr.Polym_253_117255
Zhao_2020_J.Ethnopharmacol__113711
Shen_2020_Front.Pharmacol_11_595254
Zhang_2020_Front.Oncol_10_559568
Xing_2020_Aquat.Toxicol_231_105736
Deng_2018_Bioorg.Med.Chem_26_903
Shen_2020_Eur.J.Med.Chem_208_112850
Pang_2020_Bioorg.Chem_107_104600
Yang_2020_Front.Genet_11_595166
Zou_2021_J.Proteomics__104124
Sheng_2021_J.Insect.Sci_21_
Song_2021_Oxid.Med.Cell.Longev_2021_8844455
Chen_2021_Food.Chem_345_128560
Weihs_2020_Anal.Chim.Acta.X_6_100059
Xiong_2021_Nutrition_86_111155
Huang_2021_Nature__
Li_2021_Bioorg.Chem_110_104826
Lv_2021_Environ.Pollut_280_117000
Ali_2021_Int.J.Biol.Macromol__
Lan_2021_J.Agric.Food.Chem_69_5344
Qian_2014_Macromol.Rapid.Commun_35_1788
Zhang_2021_Pharmacol.Res_169_105630
Wang_2021_Front.Plant.Sci_12_664470
Chen_2020_J.Biol.Chem_296_100104
Chowdhury_2021_Eur.J.Med.Chem_222_113541
Han_2021_Biochim.Biophys.Acta.Mol.Cell.Biol.Lipids_1866_158988
Widlansky_2018_EMBO.Mol.Med_10_
Fang_2021_Drug.Metab.Dispos__
Xing_2021_Enzyme.Microb.Technol_149_109849
Chen_2021_Angew.Chem.Int.Ed.Engl_60_21959
Li_2021_Life.Sci_283_119866
Hou_2021_Enzyme.Microb.Technol_150_109859
Zhou_2021_J.Hazard.Mater_416_126142
Jiang_2021_Arch.Insect.Biochem.Physiol__e21842
Mo_2021_Environ.Pollut_291_118120
Wang_2021_Proteins__
Yi_2021_Front.Physiol_12_674023
Kang_2021_Environ.Sci.Pollut.Res.Int__
Xu_2021_Food.Chem_372_131256
Jia_2021_J.Med.Chem__
Hu_2021_Sci.Rep_11_21639
Yin_2022_Anal.Chim.Acta_1190_339248
Cao_2020_J.Agric.Food.Chem_68_7298
Long_2021_Mar.Drugs_19_
Zhao_2019_Appl.Microbiol.Biotechnol_103_7129
Guan_2021_Front.Bioeng.Biotechnol_9_806788
Liu_2022_Anal.Chem_94_583
Luo_2021_Anal.Chem__
Wang_2020_Biosci.Rep_40_
Xiong_2020_Arch.Environ.Contam.Toxicol_79_246
Sheck_2006_J.Evol.Biol_19_600
Zhang_2022_Food.Sci.Nutr_10_3
Huang_2022_Ageing.Res.Rev_75_101568
Hu_2022_Lab.Med__
Long_2022_Chem.Biodivers__e202100925
Zhang_2022_J.Plant.Physiol_270_153640
Wang_2022_Protein.Pept.Lett__
Tu_2020_Nat.Commun_11_971
Wang_2014_Genome.Biol_15_R39
Zeng_2022_Molecules_27_
Rui_2022_BMC.Plant.Biol_22_194
Wang_2022_Ecotoxicol.Environ.Saf_237_113540
Cui_2022_Oxid.Med.Cell.Longev_2022_2122856
Liang_2022_Sci.Total.Environ__155747
Ghide_2022_Food.Chem_390_133171
Peng_2021_FEBS.Open.Bio_11_375
Zhao_2022_Int.J.Mol.Sci_23_5822
Yang_2022_Appl.Biochem.Biotechnol__
Wang_2022_Sci.Rep_12_10979
Wang_2022_Molecules_27_
Ma_2022_Front.Public.Health_10_901485
Pan_2011_Arch.Pharm.Res_34_1177
Fang_2015_Chem.Biol_22_734
Wang_2022_Talanta_250_123746
Wang_2022_Food.Chem_397_133810
Xia_2022_Biosensors.(Basel)_12_
Chen_2020_Biol.Open_9_bio048462
Wang_2022_Front.Vet.Sci_9_948873
Nan_2022_Curr.Issues.Mol.Biol_44_3779
Meriwether_2019_J.Clin.Invest_129_3670
Potter_2022_Lab.Chip__
Yang_2022_Toxicol.Res.(Camb)_11_654
Sun_2022_Andrology__
Yang_2022_Anal.Chem__
Yang_2022_Arch.Insect.Biochem.Physiol__e21967
Xu_2016_Medchemcomm_7_990
Ma_2022_J.Hazard.Mater_443_130197
Jian_2022_Molecules_27_
Mahaman_2022_Nutrients_14_
Wang_2022_Chemosphere_306_135610
Xu_2022_Nat.Prod.Res__1
Zhao_2022_ACS.Cent.Sci_8_1424
Wang_2022_Nat.Commun_13_3987
Qi_2022_Front.Plant.Sci_13_1020309
Chen_2022_Antioxidants.(Basel)_11_2299
Li_2022_Environ.Toxicol.Pharmacol_97_104016
Man_2022_Front.Bioeng.Biotechnol_10_1043130
Liu_2022_Plant.Cell_34_3301
Pei_2022_Enzyme.Microb.Technol_153_109915
Perera_2022_J.Clin.Lipidol__
Wen_2022_Front.Physiol_13_1048208
Waltmann_2022_Proc.Natl.Acad.Sci.U.S.A_119_e2119509119
Zhang_2022_Int.J.Mol.Sci_23_16182
Hu_2022_J.Hazard.Mater_425_127752
Wen_2022_Int.J.Biol.Macromol__
Fan_2018_Electron.J.Biotechnol_31_10
Yang_2023_Phytomedicine_109_154600
Jiang_2023_Chemosphere__137846
Wang_2023_Mol.Ther.Nucleic.Acids_31_68
Chen_2023_J.Med.Chem__
Wang_2022_Front.Plant.Sci_13_1099673
Li_2015_Carbohydr.Res_416_51
Lv_2023_Anal.Chem__
Chen_2023_Insects_14_
Sun_2023_BMC.Plant.Biol_23_105
Yang_2023_Bioorg.Chem_133_106432
Gan_2023_Acta.Pharm.Sin.B_13_618
Gan_2023_Chin.J.Nat.Med_21_154
Wen_2023_RSC.Adv_13_6389
Wu_2023_Ecotoxicol.Environ.Saf_254_114723
Chen_2023_Commun.Chem_6_45
Feehan_2023_Proc.Natl.Acad.Sci.U.S.A_120_e2210406120
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