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Author Report for: Liu H

Name Class
Liu HFull_nameLiu Hong
First_nameHong
AddressMailShanghai Institute of Materia Medica Chinese Academy of Sciences
CountryChina
E_mailhliu@simm.ac.cn
PaperLiu_1997_Microbiology_143_2763
Liu_2001_Anal.Biochem_294_7
Fawcett_2002_Brain.Res_950_10
Jin_2002_Nucleic.Acids.Res_30_4432
Beattie_1997_Dev.Biol_187_171
Liu_1998_J.Tongji.Med.Univ_18_212
Kunst_1997_Nature_390_249
Yasumoto_1996_Microbiology_142 ( Pt 11)_3039
Liu_2007_Aquaculture_264_263
Liu_2007_Aquaculture_264_247
Li_2012_Mol.Med.Rep_6_1450
Liu_2013_Tumour.Biol_34_155
Moynie_2013_Acta.Crystallogr.Sect.F.Struct.Biol.Cryst.Commun_69_25
Zhang_2013_Mol.Biol.Rep_40_2969
Hu_2013_Mol.Biol.Rep_40_2273
Zheng_2013_Nat.Commun_4_1424
Zhu_2012_Nat.Commun_3_1112
Li_2012_J.Neurooncol_108_385
Dean_2009_Nat.Neurosci_12_767
Dean_2012_J.Neurosci_32_5398
Liu_2005_BMC.Pharmacol_5_8
Liu_2007_J.Pharmacol.Exp.Ther_322_501
Liu_2005_J.Pharmacol.Exp.Ther_315_729
Liu_2006_J.Biomed.Sci_13_395
Lu_2011_J.Pharmacol.Exp.Ther_336_178
Ji_2014_Eur.J.Med.Chem_75C_111
Li_2011_J.Bacteriol_193_5015
Wang_2014_Chem.Asian.J_9_784
Zhu_2014_Int.J.Environ.Res.Public.Health_11_4544
Mao_2014_World.J.Microbiol.Biotechnol_30_2533
Lv_2014_Toxins.(Basel)_6_2708
Liu_2014_Cell.Signal_26_2710
Chen_2010_PLoS.ONE_5_E11546
Guan_2012_J.Bacteriol_194_6975
Han_2012_J.Bacteriol_194_4463
He_2011_J.Hazard.Mater_185_682
Li_2010_Nature_463_311
Liu_2011_Appl.Microbiol.Biotechnol_90_671
Liu_2015_J.Clin.Diagn.Res_9_OC14
Liu_2015_Anal.Sci_31_421
Liu_2015_J.Enzyme.Inhib.Med.Chem__1
Liu_2010_Toxicology_276_115
Zhu_2015_J.Basic.Microbiol_55_1219
Liu_2002_Lin.Chuang.Er.Bi.Yan.Hou.Ke.Za.Zhi_16_123
Huang_2009_Nat.Genet_41_1275
Liu_2016_Eur.J.Med.Chem_126_810
Su_2017_Molecules_22_
Campisi_2016_Front.Microbiol_7_1265
Yao_2017_Medicine.(Baltimore)_96_e6735
Sang_2017_Eur.J.Med.Chem_135_307
Liu_2017_Biochemistry_56_1585
Song_2017_Anal.Chim.Acta_982_168
Xu_2017_Brain.Behav_7_e00793
Zhang_2016_Sci.Rep_6_23122
Zhang_2017_Lipids.Health.Dis_16_57
Liu_2005_J.Physiol_565_965
Liu_2004_Arch.Microbiol_181_287
Liu_2005_J.Chromatogr.B.Analyt.Technol.Biomed.Life.Sci_822_91
Liu_2005_J.Med.Entomol_42_815
Chen_2008_Nat.Struct.Mol.Biol_15_50
Liu_2008_J.Endocrinol_196_57
He_2008_Sheng.Wu.Gong.Cheng.Xue.Bao_24_821
Liu_2009_Biol.Trace.Elem.Res_129_170
Li_2009_Cytokine_45_12
Liu_2008_Gene_420_57
Duan_2010_Biomaterials_31_894
Ma_2010_Biomaterials_31_99
Xu_2009_Biotechnol.Lett_31_1335
Hu_2008_J.Bacteriol_190_2892
Wittenmayer_2009_Proc.Natl.Acad.Sci.U.S.A_106_13564
Zhou_2007_Neurosci_144_1209
Tong_2017_Neuron_95_326
Zheng_2017_Metabolism_73_125
Wang_2010_Xenobiotica_40_707
Shen_2011_Mol.Biol.Rep_38_553
Almeida_2009_Mol.Plant.Microbe.Interact_22_52
Jiang_2009_Arch.Microbiol_191_485
Sun_2011_Zhonghua.Gan.Zang.Bing.Za.Zhi_19_603
Xu_2011_Am.J.Med.Sci_342_452
Liu_2017_Oxid.Med.Cell.Longev_2017_9718615
Dulazi_2011_Environ.Technol_32_1443
Han_2012_Anal.Chim.Acta_720_126
Liu_2012_Neuropharmacol_62_2515
Liu_2012_Ecotoxicol.Environ.Saf_80_118
Gao_2018_J.Enzyme.Inhib.Med.Chem_33_519
Zheng_2018_Bioorg.Chem_78_298
Xu_2018_Bioorg.Med.Chem_26_1885
Wu_2018_Medchemcomm_9_149
Liu_2018_Chembiochem_19_1471
Mohammed_2019_Oncol.Rep_41_973
Sharma_2018_J.Neurosci_38_7072
Li_2018_J.Investig.Med_66_1
Qin_2014_Proc.Natl.Acad.Sci.U.S.A_111_5135
Sun_2018_Nat.Genet_50_1289
Xue_2019_Sci.Rep_9_2558
Cao_2019_Aquat.Toxicol_210_167
Cui_2016_Tumour.Biol_37_6501
Liu_2017_Oncol.Rep_37_3554
Liu_2017_Oncol.Lett_14_3587
Qian_2016_Oncol.Rep_35_1273
Luo_2019_Front.Pharmacol_10_395
Snieckute_2019_Mol.Cell.Neurosci_98_70
Zhou_2019_Front.Pharmacol_10_603
Zhang_2019_Int.J.Biol.Macromol_137_1190
Lu_2012_PLoS.Pathog_8_E1002663
Niu_2018_Mol.Med.Rep_18_4516
Qin_2018_Org.Lett_20_5066
Song_2018_Bioorg.Med.Chem_26_6115
Qin_2019_Angew.Chem.Int.Ed.Engl_58_4291
Xu_2019_Anim.Genet_50_287
Zhang_2019_J.Am.Chem.Soc_141_14643
Ji_2014_Eur.J.Med.Chem_86_242
Tang_2017_Int.J.Cancer_140_1620
Fu_2019_Toxicology_430_152346
Fu_2020_Rapid.Commun.Mass.Spectrom__e8721
Liu_2020_Sci.Total.Environ_713_136488
Zhao_2020_Plant.Physiol__
Wang_2020_Support.Care.Cancer_28_581
Wu_2020_FASEB.J_34_1983
Yang_2019_Anal.Chem_91_12874
Liu_2020_Bioorg.Chem_103_104127
Liu_2020_Chem.Biodivers__
Liu_2020_Oxid.Med.Cell.Longev_2020_1720961
Ren_2020_Front.Pharmacol_11_571535
Wang_2020_ACS.Omega_5_24708
Cui_2020_Front.Microbiol_11_2204
Qin_2020_Bioorg.Chem__104519
Guo_2013_Nat.Commun_4_1566
Jiang_2013_Nature_504_401
Liu_2020_Bioorg.Chem_108_104579
Zhou_2021_J.Med.Chem_64_1844
Liu_2021_Front.Cell.Dev.Biol_9_640867
Liu_2019_Curr.Mol.Med_19_364
Li_2021_J.Mol.Histol__
Meng_2021_Int.J.Biol.Macromol_180_667
Shi_2021_J.Agric.Food.Chem_69_2245
Wang_2021_Clin.Chim.Acta__
Chen_2021_Virulence_12_1563
Zhang_2021_Anal.Chem__
Liu_2021_J.Pharm.Sci__
Zhang_2021_Bioorg.Chem_116_105387
Yu_2021_Bioorg.Chem_117_105404
Wang_2021_Ecotoxicol.Environ.Saf_228_112959
Issotina_2021_Int.Immunopharmacol__108365
Fan_2021_J.Alzheimers.Dis__
Li_2021_J.Cell.Physiol_236_4435
Li_2021_Int.J.Biol.Macromol_169_18
Ma_2020_Neuroreport_31_819
Zheng_2020_J.Biol.Inorg.Chem_25_1009
Zheng_2020_Food.Funct_11_8472
Fu_2021_ACS.Appl.Bio.Mater_4_3539
Zhang_2022_Food.Sci.Nutr_10_487
Liu_2022_J.Plant.Res__
Wang_2022_PLoS.Negl.Trop.Dis_16_e0010208
Chen_2022_Metab.Brain.Dis__
Xu_2022_Mar.Drugs_20_
Fu_2022_Food.Chem_387_132919
Gong_2022_Indian.J.Microbiol_62_280
Zhang_2022_Anal.Chim.Acta_1207_339708
Liu_2022_Front.Bioeng.Biotechnol_10_865787
Pan_2022_Front.Nutr_9_892426
Shu_2022_Spectrochim.Acta.A.Mol.Biomol.Spectrosc_281_121529
Liu_2011_J.Bacteriol_193_6086
Xiang_2022_Cell.Death.Dis_13_638
Xie_2022_Food.Funct__
Du_2022_J.Med.Chem__
Chen_2020_Biol.Open_9_bio048462
Liu_2022_Protein.Expr.Purif__106165
Yu_2022_Phytochemistry_203_113394
Luo_2022_BMC.Biotechnol_22_24
Qian_2022_ResearchSquare__
Liu_2022_Sci.Rep_12_16609
Guo_2022_Bioanalysis_14_817
Yang_2022_Int.J.Biochem.Cell.Biol__106316
Song_2022_Phytochemistry__113506
Wang_2022_Food.Chem_404_134672
Song_2022_Ecotoxicol.Environ.Saf_248_114296
Yao_2021_Front.Microbiol_12_743377
Huang_2022_Front.Physiol_13_1091232
Luo_2023_J.Transl.Med_21_71
Jiang_2023_Toxins.(Basel)_15_
Hao_2023_Nat.Commun_14_1436
Zhang_2022_Clin.Transl.Med_12_e945
Guo_2023_Theranostics_13_1826
Wei_2023_CNS.Neurosci.Ther__
Li_2023_J.Pharm.Biomed.Anal_232_115415
Yang_2023_Toxics_11_353
Jia_2023_Front.Microbiol_14_1171618
Zhao_2023_Carbohydr.Polym_313_120885
Mei_2023_J.Integr.Neurosci_22_76
Tian_2023_Nat.Commun_14_3226
Su_2021_Mol.Catal_508_111585
Shi_2023_Angew.Chem.Int.Ed.Engl_62_e202218390
Long_2023_J.Hazard.Mater_459_132211
Wang_2023_ACS.Chem.Neurosci__
Yi_2023_Inorg.Chem__
Peng_2016_BioRes_11_10099
Liu_2023_PLoS.One_18_e0289606
Liu_2023_J.Am.Chem.Soc__
Hu_2023_Sci.Total.Environ__168043
Liu_2023_Int.J.Biol.Macromol__127690
Wang_2011_Genome.Biol_12_R107
Ni_2024_Plant.J__
Li_2024_Food.Chem_443_138459
Li_2024_Nat.Chem.Biol__
Chen_2024_Sci.Total.Environ__171607

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Please cite: Lenfant 2013 Nucleic.Acids.Res. or Marchot Chatonnet 2012 Prot.Pept Lett.
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