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Author Report for: Chen L

Name Class
Chen LFull_nameChen Lin
First_nameLin
AddressMailMolecular and Computational Biology, Departments of Biological Sciences and Chemistry, University of Southern California, Los Angeles, California
CountryUSA
E_maillinchen@usc.edu
PaperHerman_2006_J.Clin.Pharmacol_46_876
Myers_2000_Science_287_2196
Mulchandani_2001_Biosens.Bioelectron_16_433
Yin_2001_Ying.Yong.Sheng.Tai.Xue.Bao_12_615
Chen_1996_Hum.Genet_98_551
Melo_2003_Biochemistry_42_7611
Holden_2001_J.Agric.Food.Chem_49_103
Bian_2010_Proteins_78_1601
Chen_2007_Pest.Manag.Sci_63_928
Chen_2012_Environ.Sci.Technol_46_9727
Shi_2012_Stem.Cells.Transl.Med_1_725
Zhu_2013_Aging.Cell_12_85
Shi_2013_BMC.Biotechnol_13_13
Li_2011_Nat.Neurosci_14_1253
Hahm_1997_J.Mol.Neurosci_9_223
Schutz_2000_Neurosci_96_707
Weihe_1998_J.Physiol.Paris_92_385
Quik_2006_J.Neurosci_26_4681
Huang_2013_Biochem.J_454_303
Sine_2013_Biochem.J_454_311
Wang_2012_J.Bacteriol_194_6348
Zhang_2012_Nature_490_49
Mural_2002_Science_296_1661
Venter_2001_Science_291_1304
Chen_2012_Clin.Transl.Sci_5_27
Zhang_2013_Zhonghua.Gan.Zang.Bing.Za.Zhi_21_743
Hartz_2012_Arch.Gen.Psychiatry_69_854
Chen_2014_Aquat.Toxicol_149C_116
Chen_2013_BMC.Genomics_14_339
Kim_2011_Nature_479_223
Klasson_2009_Proc.Natl.Acad.Sci.U.S.A_106_5725
Nelson_2010_Science_328_994
Nie_2006_BMC.Genomics_7_173
Rojas_2012_J.Bacteriol_194_3023
Schardl_2013_PLoS.Genet_9_E1003323
Warren_2010_Nature_464_757
Brugger_2007_Archaea_2_127
Guo_2011_J.Bacteriol_193_1672
Wood_2001_Science_294_2317
Deleo_2014_Proc.Natl.Acad.Sci.U.S.A_111_4988
Zhang_2014_Plant.Mol.Biol_86_495
Yang_2014_Brain.Res.Bull_109_46
Chen_2015_Food.Chem_186_37
Cheng_2015_Bioorg.Med.Chem_23_3110
Liang_2015_Mol.Psychiatry_20_850
Bolen_2011_J.Lipid.Res_52_958
Cao_2015_PLoS.One_10_e0138151
Chen_2015_Mol.Plant_8_1536
Chen_2014_Int.J.Neuropsychopharmacol_17_1295
Luo_2015_Int.J.Mol.Sci_16_28050
Zha_2016_J.Med.Chem_59_114
Fang_2016_Bioorg.Med.Chem_24_886
Fang_2016_Mol.Neurobiol_53_270
Feng_2002_Nature_420_316
Dong_2004_J.Neurosci_24_8950
Liang_2005_Beijing.Da.Xue.Xue.Bao_37_85
Park_2005_Int.J.Mol.Med_15_443
Gao_2016_Microb.Cell.Fact_15_41
Chen_2016_Onco.Targets.Ther_9_1151
Cejkova_2012_PLoS.Negl.Trop.Dis_6_E1471
Smajs_2011_PLoS.ONE_6_E20415
Staudova_2014_PLoS.Negl.Trop.Dis_8_E3261
Sun_2015_Genome.Announc_3_e00673
Yin_2016_Water.Res_103_383
Noridomi_2015_Biochem.Pharmacol_97(4)_627
Ding_2016_Angew.Chem.Int.Ed.Engl_55_13033
Yao_2016_Nature_536_469
Dang_2015_Appl.Biochem.Biotechnol_176_1
Su_2017_Molecules_22_
Sokolow_2017_J.Alzheimers.Dis_56_229
Liu_2017_Bioorg.Med.Chem_25_2387
Guo_2017_Anal.Chim.Acta_967_59
Li_2015_Nat.Commun_6_8212
Chen_2000_Nature_408_936
Di_2017_Sci.Rep_7_2288
Hu_2017_Biochim.Biophys.Acta_1863_1382
Luo_2017_Biochem.Biophys.Res.Commun_488_204
Sun_2017_Toxicology_384_33
Xiang_2017_J.Agric.Food.Chem_65_3702
Zhang_2018_J.Hazard.Mater_341_336
Nam_2005_Proc.Natl.Acad.Sci.U.S.A_102_6137
Wu_2006_Atherosclerosis_187_65
Bergman_2006_Clin.Ther_28_55
Chen_2005_J.Bacteriol_187_4992
Yang_2005_Nucleic.Acids.Res_33_6445
Pantoja_2002_Mol.Microbiol_45_1325
Xie_2007_Acta.Crystallogr.Sect.F.Struct.Biol.Cryst.Commun_63_993
Krishna_2007_J.Clin.Pharmacol_47_165
Wang_2007_Arterioscler.Thromb.Vasc.Biol_27_197
Herman_2011_Br.J.Clin.Pharmacol_71_429
Bourgogne_2008_Genome.Biol_9_R110
Chen_2011_J.Phys.Chem.B_115_13019
Elsik_2009_Science_324_522
Wang_2011_PLoS.One_6_e20895
Xiong_2009_J.Bacteriol_191_1120
Yue_2009_J.Bacteriol_191_1359
Chen_2012_Environ.Toxicol.Chem_31_2338
Warren_2008_Nature_453_175
Chen_2013_Prostaglandins.Other.Lipid.Mediat_104-105_42
Yao_2018_Curr.Opin.Plant.Biol_45_155
Yao_2017_Cell.Res_27_838
Yao_2018_J.Exp.Bot_69_2355
Wu_2018_Molecules_23_
Zhang_2018_ChemMedChem_13_1262
Zhang_2018_J.Mol.Histol_49_339
Wan_2018_Curr.Alzheimer.Res_15_917
Qin_2014_Proc.Natl.Acad.Sci.U.S.A_111_5135
Chen_2019_Foods_8_
Yin_2019_Evid.Based.Complement.Alternat.Med_2019_2394605
Zhang_2019_Chemosphere_226_817
Huang_2019_Bioengineered_10_150
Shi_2019_Ecotoxicol.Environ.Saf_179_119
Wingfield_2018_IMA.Fungus_9_199
Guo_2019_Bioorg.Chem_92_103258
Zheng_2019_Bioorg.Med.Chem__115088
Han_2019_Nanoscale_11_14793
Xu_2019_Lab.Invest_99_1078
Ling_2019_Clin.Neurol.Neurosurg_189_105620
Backs_2011_J.Cell.Biol_195_403
Huang_2020_Bioengineered_11_375
Wang_2020_J.Am.Chem.Soc_142_8464
Zhang_2020_PLoS.One_15_e0232770
Liu_2020_Environ.Pollut_265_114832
Liu_2020_Curr.Pharm.Des__
Chen_2019_Angew.Chem.Int.Ed.Engl_58_5643
Fellner_2020_ACS.Infect.Dis_6_2771
Huang_2020_Phytochemistry_178_112459
Jiang_2020_Eur.J.Med.Chem_207_112751
Huang_2020_J.Sci.Food.Agric_100_4565
Huang_2020_Food.Chem__128407
Chen_2021_J.Hazard.Mater_402_123830
Shi_2020_J.Hazard.Mater_409_124999
He_2021_J.Mater.Chem.B__
Wong_2021_Neuropsychopharmacology__
Li_2021_Plant.J__
Wang_2021_Plant.Physiol_185_1411
Chen_2021_Chem.Sci_12_5202
Tang_2018_Acta.Biochim.Biophys.Sin.(Shanghai)_50_831
Bi_2021_Pathol.Oncol.Res_27_580800
Li_2021_Nat.Prod.Res__1
Zhu_2021_Trials_22_688
Shang_2022_Sci.Total.Environ_806_151357
Zhao_2019_Appl.Microbiol.Biotechnol_103_7129
Jing_2020_Nat.Methods_17_1139
Ren_2020_Biomater.Sci_8_6533
Peng_2022_Eur.J.Pharmacol__174772
Li_2021_Front.Aging.Neurosci_13_770948
Yang_2022_Biochem.Biophys.Res.Commun_600_117
Wu_2022_Proteomics__e2100028
Zhu_2022_J.Environ.Sci.Health.B__1
Sun_2022_Eur.J.Med.Chem_234_114210
Chen_2022_Ann.Transl.Med_10_303
Hu_2021_Front.Plant.Sci_12_747160
Du_2022_Acta.Pharm.Sin.B_12_1377
Chen_2022_J.Obstet.Gynaecol__1
Liu_2022_Nat.Cancer__
Tian_2022_J.Pak.Med.Assoc_72_1114
Wan_2022_Environ.Epigenet_8_dvac013
Xiang_2022_J.Hazard.Mater_438_129454
Chen_2016_ACS.Chem.Biol_11_2724
Chen_2015_Appl.Environ.Microbiol_81_1550
Kuhnert_2018_Environ.Microbiol_20_3325
Li_2015_ACS.Chem.Biol_10_1702
Ma_2022_Dis.Markers_2022_9775699
Wei_2020_Front.Microbiol_11_562063
Bi_2022_Bull.Exp.Biol.Med_173_346
Hu_2022_Front.Med.(Lausanne)_9_944547
Xiang_2022_Cell.Death.Dis_13_638
Yu_2022_Methods.Enzymol_674_519
Song_2022_Sci.Rep_12_15290
Zhou_2022_Chem.Biodivers__
Liu_2022_Front.Chem_10_996641
Xiao_2022_Biosensors.(Basel)_12_
Wang_2022_Food.Chem_404_134672
Jia_2023_J.Hazard.Mater_441_129958
Chen_2022_Biosensors.(Basel)_12_
Yang_2022_Ecotoxicol.Environ.Saf_249_114399
Wu_2022_Environ.Entomol__
Jiang_2016_Cell.Rep_16_1502
Chen_2023_J.Med.Chem__
Chen_2023_Analyst__
He_2019_J.Cell.Physiol_234_12070
Dang_2023_Sci.Rep_13_1574
Jin_2023_Int.J.Biol.Macromol__123427
Chen_2023_Insects_14_
Pu_2023_Food.Chem_418_136013
Xie_2023_J.Ethnopharmacol_311_116400
Meng_2023_Foods_12_
Yang_2023_Bioorg.Chem_138_106625
Wan_2023_ACS.Omega_8_21802
Mendez_2022_Mol.Catal_533_112793
Chen_2023_Phys.Chem.Chem.Phys_25_18332
Cao_2023_Biochem.Pharmacol__115742
Hu_2023_Fish.Shellfish.Immunol_141_109062
Sun_2023_Endocrine__
Chen_2023_Mol.Metab__101834
Li_2023_Biosens.Bioelectron_247_115912
Shi_2024_Clin.Pharmacokinet__
Wang_2024_Diabetes.Obes.Metab__
Zhang_2023_Molecules_29_
Chen_2024_J.Med.Chem__
Wang_2024_Anal.Chem__
Yuan_2024_Food.Chem_446_138832
Li_2024_Anticancer.Agents.Med.Chem__
Wu_2024_J.Nat.Prod__
Lai_1996_J.Trauma_40_S56

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Mail to: Nicolas Lenfant, Thierry Hotelier, Yves Bourne, Pascale Marchot and Arnaud Chatonnet.
Please cite: Lenfant 2013 Nucleic.Acids.Res. or Marchot Chatonnet 2012 Prot.Pept Lett.
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