Estrogen Receptor Modulation
Cell Cycle
Cell Morphology
Mitochondrial Function
Histone Modification
p53 Modulation
Oxidative Stress
Cell Viability
Aryl Hydrocarbon Receptor Modulation
Other Transcription Factors
Other Developmental Signaling Transcription Factors
Liver X Receptor Modulation
Retinoic Acid Receptor Modulation
Apoptosis
Glucocorticoid Receptor Modulation
Inflammation
Constitutive Androstane Receptor Modulation
Other Xenobiotic Response Transcription Factors
Other Fatty Acid Signaling
Peroxisome Proliferator Activated Receptor Modulation
Pregnane X Receptor Modulation
RAR-related Orphan Receptor Modulation
Vitamin D Modulation
Androgen Receptor Modulation
Estrogen-related Receptor Modulation
Farnesoid X-activated Receptor Modulation
Retinoid X Receptor Modulation
Gene Expression Regulation, Thyroid Receptor Modulation
Cell Proliferation
Clotting
Extracellular Matrix Degradation
Vascularization
Aromatase Activity Modulation
Cytochrome P450 Activity Modulation
Androgen Biosynthesis and Metabolism
Estrogen Biosynthesis and Metabolism
Protein Deacetylation
Folate Metabolism
Cholesterol Transport
Progesterone Receptor Modulation
Glucocorticoid Biosynthesis and Metabolism
Progestogen Biosynthesis and Metabolism
DNA Damage
Mineralocorticoid Receptor Modulation
Malformation
Thyroid Hormone Biosynthesis
Glucagon Receptor Activity Modulation
Bile Acid Mediated Energy Homeostasis
Metabolic Regulation of Insulin Secretion
Melanogenesis
Melanocortin Receptor Modulation
Sodium/Iodide Cotransporter
Thyrotropin-Releasing Hormone Receptor Modulation
Deiodinase, Iodothyronine
Calcium Flux
Deiodinase, Iodotyrosine
Thyroid Hormone Binding
Cell Differentiation
Neurotransmission
Acetylcholinesterase Activity Modulation
Butyrylcholinesterase Activity Modulation
Monoamine Oxidase Activity Modulation
Adenosine Receptor Modulation
Dopamine Receptor Modulation
Serotonin Receptor Modulation
Muscarinic Acetylcholine Receptor Modulation
Opioid Receptor Modulation
Adrenergic Receptor Modulation
Ion Channel Activity
Metabotropic Glutamate Receptor Modulation
Glutamate Ion Channel Receptor Modulation
Gamma-aminobutyric Acid Receptor Modulation
Nicotinic Acid Receptor Modulation
Dopamine Transporter Activity Modulation
Norepinephrine Transporter Modulation
Serotonin Plasma Membrane Transporter Modulation
Histamine Receptor Modulation
Cellular Process
Cellular Stress Response
Steroid Hormone Metabolism
Thyroid Hormone Metabolic Process
Endocrine-Related Processes
Energy Metabolism Process
Epigenetic Process
Gene Expression Regulation, Developmental Signaling
Gene Expression Regulation, Fatty Acid Signaling
Gene Expression Regulation, Other Transcription Factors
Gene Expression Regulation, Steroid Hormone Nuclear Receptor
Gene Expression Regulation, Xenobiotic Response
Gene Expression
Immune and Inflammatory Response
Acetylcholine Receptor Signaling Pathway
Dopamine Receptor Signaling Pathway
Glutamate Receptor Signaling Pathway
Other Neurotransmission
Serotonin Receptor Signaling Pathway
Neuronal Transmission
Unannotated
OPERA, Boiling Point
CATMoS, Acute Oral Toxicity
OPERA, Human Hepatic Intrinsic Clearance
OPERA, Combined dipolarity/polarizability
OPERA, Human Plasma Fraction Unbound
OPERA, Negative Log of Acid Dissociation Constant
OPERA, OH rate constant for the atmospheric, gas-phase reaction between photochemically produced hydroxyl radicals and organic chemicals
OPERA, Fish bioconcentration factor
OPERA, biodegradation half-life for compounds containing only carbon and hydrogen
OPERA, Caco-2 permeability (logPapp)
OPERA, Octanol-Water Distribution Coefficient
OPERA, Henry's Law Constant
OPERA, The whole body primary biotransformation rate (half-life) constant for organic chemicals in fish.
OPERA, Octanol-Air Partition Coefficient
OPERA, soil adsorption coefficient of organic compounds.
OPERA, Octanol-Water Partition Coefficient
OPERA, Vapor Pressure
OPERA, Water Solubility
OPERA, Molar refractivity
Molecular Weight
OPERA, Melting Point
OPERA, Number of aromatic atoms
OPERA, Number of atoms
OPERA, Number of carbon atoms
OPERA, Number of hydrogen bond acceptors (using CDK HBondAcceptorCountDescriptor algorithm)
OPERA, Number of heavy atoms (i.e. not hydrogen)
OPERA, Number of rings containing heteroatoms (N, O, P, S, or halogens)
OPERA, Number failures of the Lipinski's Rule Of 5
OPERA, Number of nitrogen atoms
OPERA, Number of oxygen atoms
OPERA, Number of rings
OPERA, Number of rotatable bonds, excluding terminal bonds
OPERA, Number of hydrogen bond donors (using CDK HBondDonorCountDescriptor algorithm)
OPERA, HPLC retention time.
OPERA, Fraction of sp3 carbons to sp2 carbons
OPERA, Topological polar surface area
OPERA, Collaborative Acute Toxicity Modeling Suite. Nontoxic. LD50 > 2000 mg/kg vs LD50  ≤ 2000 mg/kg
OPERA, Collaborative Acute Toxicity Modeling Suite. very_toxic LD50 ≤ 50 mg/kg vs LD50 > 50 mg/kg
CERAPP, ER Agonist
CERAPP, ER Antagonist
CERAPP, ER Binding
CoMPARA, AR Agonist
CoMPARA, AR Antagonist
CoMPARA, AR Binding
ACEA_ER_AUC_viability
BSK_hDFCGF_Proliferation_down
OT_FXR_FXRSRC1_1440
OT_NURR1_NURR1RXRa_1440
ACEA_AR_agonist_AUC_viability
ACEA_AR_antagonist_80hr
ACEA_AR_antagonist_AUC_viability
LTEA_HepaRG_CYP1A1_up
LTEA_HepaRG_CYP1A2_up
LTEA_HepaRG_CYP2B6_up
TOX21_ERa_BLA_Antagonist_ratio
TOX21_AR_LUC_MDAKB2_Antagonist_0.5nM_R1881_viability
TOX21_CAR_Agonist_viabillity
TOX21_ERR_Antagonist
TOX21_ERR_viability
TOX21_PGC_ERR_viability
TOX21_SHH_3T3_GLI3_Agonist_viability
TOX21_SHH_3T3_GLI3_Antagonist_viability
TOX21_ERb_BLA_Antagonist_ratio
TOX21_DT40_100
TOX21_DT40_657
TOX21_ERa_LUC_VM7_Agonist_10nM_ICI182780_viability
TOX21_CASP3_HEPG2_viability
TOX21_CASP3_CHO_viability
CCTE_Simmons_MITO_basal_resp_rate_OCR_up
CCTE_Deisenroth_5AR NBTE_ratio_up
NVS_ENZ_rMAOBC
CCTE_Padilla_ZF_144hpf_TERATOSCORE_up
CEETOX_H295R_OHPROG_up
TOX21_AR_BLA_Agonist_ratio
TOX21_AR_BLA_Antagonist_ratio
TOX21_AR_BLA_Antagonist_viability
TOX21_Aromatase_Inhibition_viability
TOX21_ELG1_LUC_Agonist_viability
TOX21_MMP_viability
TOX21_DT40
TOX21_AR_LUC_MDAKB2_Agonist_3uM_Nilutamide_viability
TOX21_CAR_Antagonist_viability
TOX21_ERa_LUC_VM7_Antagonist_0.1nM_E2_viability
TOX21_HDAC_Inhibition
TOX21_AR_LUC_MDAKB2_Antagonist_10nM_R1881_viability
TOX21_ERa_LUC_VM7_Antagonist_0.5nM_E2_viability
TOX21_MMP_ratio_down
TOX21_MMP_rhodamine
TOX21_TR_LUC_GH3_Antagonist_viability
TOX21_AhR_LUC_Agonist_viability
TOX21_PXR_viability
ACEA_ER_80hr
TOX21_ERa_LUC_VM7_Agonist
TOX21_RXR_BLA_Agonist_ratio
TOX21_ARE_BLA_agonist_ratio
TOX21_p53_BLA_p3_ratio
TOX21_AR_LUC_MDAKB2_Antagonist_0.5nM_R1881
TOX21_PR_BLA_Antagonist_ratio
TOX21_PXR_Agonist
OT_ER_ERaERb_1440
ACEA_AR_agonist_80hr
TOX21_RT_HEK293_FLO_00hr_viability
TOX21_RT_HEPG2_FLO_00hr_ctrl_viability
TOX21_RT_HEPG2_FLO_08hr_viability
TOX21_RT_HEPG2_FLO_16hr_ctrl_viability
TOX21_RT_HEPG2_FLO_24hr_viability
TOX21_RT_HEPG2_FLO_32hr_ctrl_viability
TOX21_RT_HEPG2_FLO_40hr_ctrl_viability
UPITT_HCI_U2OS_AR_TIF2_Nucleoli_Antagonist
UPITT_HCI_U2OS_AR_TIF2_Nucleoli_Cytoplasm_Ratio_Antagonist
STM_H9_OrnCyssISnorm_ratio_dn
STM_H9_Viability_norm
ATG_AP_1_CIS_up
ATG_FoxO_CIS_up
ATG_HSE_CIS_up
ATG_MRE_CIS_up
ATG_Myc_CIS_up
ATG_NFI_CIS_up
ATG_NRF1_CIS_up
ATG_NRF2_ARE_CIS_up
ATG_Oct_MLP_CIS_up
ATG_Pax6_CIS_up
ATG_Sp1_CIS_up
ATG_Xbp1_CIS_up
BSK_3C_HLADR_down
BSK_3C_Proliferation_down
BSK_3C_VCAM1_down
BSK_4H_Eotaxin3_down
BSK_CASM3C_Thrombomodulin_up
BSK_hDFCGF_EGFR_up
BSK_LPS_CD40_down
BSK_LPS_IL1a_down
BSK_LPS_IL8_down
BSK_LPS_PGE2_down
BSK_LPS_TNFa_down
BSK_LPS_VCAM1_down
BSK_SAg_CD38_down
BSK_SAg_CD69_down
BSK_SAg_IL8_up
BSK_SAg_Proliferation_down
BSK_BT_Bcell_Proliferation_down
BSK_BT_PBMCCytotoxicity_down
BSK_BT_sIgG_down
BSK_BT_xIL17A_down
BSK_BT_xIL17F_down
BSK_BT_xIL2_down
BSK_BT_xIL6_down
BSK_BT_xTNFa_down
TOX21_RORg_LUC_CHO_Antagonist
TOX21_RORg_LUC_CHO_Antagonist_viability
TOX21_RAR_LUC_Antagonist
TOX21_H2AX_HTRF_CHO_Agonist_ratio
TOX21_AP1_BLA_Agonist_ratio
TOX21_TSHR_HTRF_Agonist_ratio
TOX21_CAR_Antagonist
TOX21_ERa_LUC_VM7_Antagonist_0.1nM_E2
TOX21_PGC_ERR_Agonist
TOX21_RT_HEK293_GLO_08hr_viability
TOX21_RT_HEPG2_GLO_08hr_ctrl_viability
TOX21_RT_HEPG2_GLO_16hr_ctrl_viability
TOX21_SHH_3T3_GLI3_Antagonist
TOX21_ERb_BLA_Agonist_viability
TOX21_ERb_BLA_Antagonist_viability
TOX21_RT_HEPG2_GLO_24hr_ctrl_viability
TOX21_SBE_BLA_Antagonist_ratio
ATG_C_EBP_CIS_up
ATG_DR5_CIS_up
ATG_EGR_CIS_up
ATG_PPRE_CIS_up
ATG_RORE_CIS_up
ATG_Sox_CIS_up
ATG_SREBP_CIS_up
ATG_VDRE_CIS_up
ATG_HNF4a_TRANS_up
ATG_NURR1_TRANS_up
ATG_PPARd_TRANS_up
ATG_PPARg_TRANS_up
ATG_RORg_TRANS_up
ATG_RXRa_TRANS_up
ATG_RXRb_TRANS_up
NVS_ENZ_oCOX2
TOX21_PPARg_BLA_antagonist_ratio
TOX21_AR_LUC_MDAKB2_Antagonist_10nM_R1881
TOX21_Aromatase_Inhibition
TOX21_ERa_BLA_Agonist_ratio
TOX21_ERa_BLA_Antagonist_viability
TOX21_ERa_LUC_VM7_Antagonist_0.5nM_E2
TOX21_GR_BLA_Agonist_ratio
TOX21_GR_BLA_Antagonist_ratio
TOX21_GR_BLA_Antagonist_viability
TOX21_PPARg_BLA_Agonist_ratio
TOX21_TR_LUC_GH3_Antagonist
TOX21_HSE_BLA_agonist_ratio
TOX21_p53_BLA_p1_ratio
TOX21_FXR_BLA_agonist_ratio
TOX21_FXR_BLA_antagonist_ratio
TOX21_FXR_BLA_antagonist_viability
TOX21_PPARd_BLA_agonist_ratio
TOX21_PPARd_BLA_antagonist_ratio
TOX21_PPARd_BLA_antagonist_viability
TOX21_PPARg_BLA_antagonist_viability
TOX21_VDR_BLA_antagonist_ratio
TOX21_VDR_BLA_antagonist_viability
TOX21_ARE_BLA_agonist_viability
TOX21_HSE_BLA_agonist_viability
TOX21_p53_BLA_p1_viability
TOX21_FXR_BLA_agonist_viability
TOX21_PPARd_BLA_Agonist_viability
TOX21_p53_BLA_p2_ratio
TOX21_p53_BLA_p2_viability
TOX21_p53_BLA_p3_viability
TOX21_p53_BLA_p4_ratio
TOX21_p53_BLA_p4_viability
TOX21_p53_BLA_p5_ratio
TOX21_p53_BLA_p5_viability
TOX21_VDR_BLA_Agonist_viability
TOX21_ESRE_BLA_ratio
TOX21_ESRE_BLA_viability
TOX21_NFkB_BLA_agonist_ratio
TOX21_NFkB_BLA_agonist_viability
TOX21_RAR_LUC_Agonist_viability
TOX21_RXR_BLA_Agonist_viability
TOX21_RAR_LUC_Antagonist_viability
TOX21_AP1_BLA_Agonist_viability
TOX21_TSHR_HTRF_Antagonist_ratio
TOX21_H2AX_HTRF_CHO_viability
TOX21_HDAC_Inhibition_viability
TOX21_HRE_BLA_Agonist_ratio
TOX21_HRE_BLA_Agonist_viability
TOX21_PGC_ERR_Antagonist
TOX21_RT_HEK293_FLO_24hr_viability
TOX21_RT_HEK293_FLO_32hr_viability
TOX21_RT_HEK293_GLO_16hr_viability
TOX21_RT_HEK293_GLO_24hr_viability
TOX21_RT_HEK293_GLO_32hr_viability
TOX21_RT_HEK293_GLO_40hr_viability
TOX21_RT_HEPG2_GLO_00hr_ctrl_viability
TOX21_PR_BLA_Agonist_viability
TOX21_PR_BLA_Antagonist_viability
TOX21_TRHR_HEK293_Agonist
TOX21_TRHR_HEK293_Antagonist
TOX21_SBE_BLA_Antagonist_viability
TOX21_SBE_BLA_Agonist_viability
OT_AR_ARELUC_AG_1440
ATG_PXRE_CIS_up
NVS_NR_bER
NVS_NR_hAR
NVS_NR_hER
NVS_NR_mERa
NVS_NR_hRAR_Antagonist
TOX21_RT_HEK293_FLO_16hr_viability
ATG_ERE_CIS_up
ATG_Myb_CIS_up
TOX21_RT_HEK293_FLO_40hr_viability
TOX21_RT_HEPG2_GLO_32hr_ctrl_viability
TOX21_RT_HEPG2_GLO_40hr_viability
TOX21_RAR_LUC_Agonist
TOX21_SHH_3T3_GLI3_Agonist
ATG_TGFb_CIS_up
ATG_PPARa_TRANS_up
TOX21_AhR_LUC_Agonist
UKN5_HCS_SBAD2_cell_viability_dn
UKN2_HCS_IMR90_cell_viability_dn
NVS_ENZ_oCOX1
UKN5_HCS_SBAD2_neurite_outgrowth_dn
UKN4_HCS_LUHMES_neurite_outgrowth_dn
UKN4_HCS_LUHMES_cell_viability_dn
TOX21_CASP3_HEPG2
BSK_BE3C_uPA_down
BSK_CASM3C_SAA_up
CLD_CYP1A2_48hr
NVS_ENZ_hPDE4A1
CEETOX_H295R_ESTRADIOL_up
CEETOX_H295R_ESTRONE_up
LTEA_HepaRG_CYP2C19_up
LTEA_HepaRG_CYP2C8_up
LTEA_HepaRG_CYP2E1_dn
LTEA_HepaRG_CYP3A4_up
LTEA_HepaRG_CYP3A7_up
LTEA_HepaRG_GADD45A_up
LTEA_HepaRG_UGT1A1_up
LTEA_HepaRG_UGT1A6_up
BSK_KF3CT_IP10_down
CLD_CYP1A1_6hr
CLD_CYP1A2_6hr
CLD_CYP1A2_24hr
CLD_CYP3A4_24hr
CLD_CYP3A4_48hr
TOX21_CAR_Agonist
CCTE_Deisenroth_AIME_384WELL_CTox_Inactive_dn
NVS_ENZ_hBACE
ATG_BRE_CIS_up
ATG_CRE_CIS_up
APR_HepG2_CellCycleArrest_24h_dn
APR_HepG2_CellLoss_24h_dn
APR_HepG2_MitoMembPot_24h_dn
APR_HepG2_MitoticArrest_24h_up
APR_HepG2_P-H2AX_24h_up
APR_HepG2_p53Act_24h_up
APR_HepG2_CellCycleArrest_72h_dn
APR_HepG2_CellLoss_72h_dn
APR_HepG2_MicrotubuleCSK_72h_up
APR_HepG2_MitoMembPot_72h_dn
APR_HepG2_MitoticArrest_72h_up
APR_HepG2_P-H2AX_72h_up
APR_HepG2_p53Act_72h_up
APR_HepG2_StressKinase_72h_up
BSK_3C_IL8_down
BSK_3C_MCP1_down
BSK_3C_SRB_down
BSK_3C_uPAR_down
BSK_4H_MCP1_down
BSK_4H_Pselectin_down
BSK_4H_uPAR_down
BSK_4H_VCAM1_down
BSK_4H_VEGFRII_down
BSK_BE3C_IP10_down
BSK_BE3C_PAI1_down
BSK_CASM3C_HLADR_down
BSK_CASM3C_IL6_up
BSK_CASM3C_LDLR_down
BSK_CASM3C_MCSF_down
BSK_CASM3C_Proliferation_down
BSK_CASM3C_SAA_down
BSK_CASM3C_SRB_down
BSK_CASM3C_TissueFactor_down
BSK_CASM3C_uPAR_down
BSK_hDFCGF_MMP1_up
BSK_hDFCGF_PAI1_down
BSK_hDFCGF_VCAM1_down
BSK_KF3CT_MMP9_down
BSK_LPS_MCP1_down
BSK_LPS_MCSF_down
BSK_LPS_TissueFactor_down
BSK_SAg_CD40_down
BSK_SAg_Eselectin_down
BSK_SAg_IL8_down
BSK_SAg_MCP1_down
BSK_SAg_PBMCCytotoxicity_down
OT_AR_ARSRC1_0960
OT_NURR1_NURR1RXRa_0480
CEETOX_H295R_11DCORT_dn
CEETOX_H295R_OHPREG_dn
CEETOX_H295R_OHPROG_dn
CEETOX_H295R_DOC_dn
CEETOX_H295R_PROG_dn
ArunA_CellTiter_hNP_dn
ArunA_Migration_hNP_dn
ArunA_Migration_hNC_dn
ArunA_NOG_BranchPointsPerNeurite_up
CCTE_Simmons_AUR_TPO_dn
CCTE_Simmons_CellTiterGLO_HEK293T
CCTE_Simmons_QuantiLum_inhib_2_dn
LTEA_HepaRG_ABCB1_dn
LTEA_HepaRG_ACLY_dn
LTEA_HepaRG_ACOX1_dn
LTEA_HepaRG_ADK_dn
LTEA_HepaRG_ALPP_dn
LTEA_HepaRG_APOA5_dn
LTEA_HepaRG_BAX_up
LTEA_HepaRG_BCL2_dn
LTEA_HepaRG_CASP3_dn
LTEA_HepaRG_CAT_dn
LTEA_HepaRG_CYP1A2_dn
LTEA_HepaRG_CYP2B6_dn
LTEA_HepaRG_CYP2C19_dn
LTEA_HepaRG_CYP2C8_dn
LTEA_HepaRG_CYP2C9_dn
LTEA_HepaRG_CYP3A7_dn
LTEA_HepaRG_CYP4A11_dn
LTEA_HepaRG_CYP4A22_dn
LTEA_HepaRG_CYP7A1_dn
LTEA_HepaRG_DDIT3_up
LTEA_HepaRG_EGF_dn
LTEA_HepaRG_FABP1_dn
LTEA_HepaRG_FAS_up
LTEA_HepaRG_FASN_dn
LTEA_HepaRG_FMO3_dn
LTEA_HepaRG_FOXO1_dn
LTEA_HepaRG_FOXO3_dn
LTEA_HepaRG_GADD45B_up
LTEA_HepaRG_GADD45G_up
LTEA_HepaRG_GCLC_dn
LTEA_HepaRG_GSTA2_dn
LTEA_HepaRG_HGF_dn
LTEA_HepaRG_HIF1A_up
LTEA_HepaRG_HMGCS2_dn
LTEA_HepaRG_HSPA1A_up
LTEA_HepaRG_IGF1_dn
LTEA_HepaRG_IGFBP1_up
LTEA_HepaRG_IL6_up
LTEA_HepaRG_JUN_up
LTEA_HepaRG_KCNK1_up
LTEA_HepaRG_KRT19_dn
LTEA_HepaRG_MMP10_up
LTEA_HepaRG_MMP3_up
LTEA_HepaRG_MYC_up
LTEA_HepaRG_NFKB1_dn
LTEA_HepaRG_NQO1_dn
LTEA_HepaRG_PDK4_up
LTEA_HepaRG_PEG10_dn
LTEA_HepaRG_PPP2R4_dn
LTEA_HepaRG_PTEN_dn
LTEA_HepaRG_SDHB_dn
LTEA_HepaRG_SLC22A1_dn
LTEA_HepaRG_SLCO1B1_dn
LTEA_HepaRG_STAT3_dn
LTEA_HepaRG_SULT2A1_dn
LTEA_HepaRG_TGFA_up
LTEA_HepaRG_TGFB1_dn
LTEA_HepaRG_TIMP1_dn
LTEA_HepaRG_UGT1A6_dn
LTEA_HepaRG_XBP1_dn
LTEA_HepaRG_LDH_cytotoxicity
NVS_MP_hPBR
NVS_MP_rPBR
NVS_TR_hDAT
NVS_TR_hNET
ATG_PBREM_CIS_up
ATG_PXR_TRANS_up
BSK_LPS_SRB_down
CLD_CYP2B6_6hr
CLD_CYP3A4_6hr
CLD_CYP1A1_24hr
CLD_CYP2B6_24hr
CLD_UGT1A1_24hr
CLD_CYP1A1_48hr
CLD_CYP2B6_48hr
CLD_UGT1A1_48hr
OT_FXR_FXRSRC1_0480
STM_H9_CystineISnorm_perc_up
CCTE_Shafer_MEA_acute_spike_number_dn
CCTE_Shafer_MEA_acute_firing_rate_mean_dn
CCTE_Shafer_MEA_acute_burst_number_dn
CCTE_Shafer_MEA_acute_burst_percentage_mean_dn
CCTE_Shafer_MEA_acute_burst_percentage_std_dn
CCTE_Shafer_MEA_acute_per_network_burst_spike_number_mean_dn
CCTE_Shafer_MEA_acute_per_network_burst_spike_number_std_dn
CCTE_Shafer_MEA_acute_per_network_burst_electrodes_number_mean_dn
CCTE_Shafer_MEA_acute_network_burst_percentage_dn
CCTE_Shafer_MEA_acute_cross_correlation_area_dn
CCTE_Shafer_MEA_acute_cross_correlation_HWHM_dn
CCTE_Shafer_MEA_acute_synchrony_index_dn
LTEA_HepaRG_ABCB1_up
LTEA_HepaRG_BCL2L11_dn
LTEA_HepaRG_BID_dn
LTEA_HepaRG_CYP1A1_dn
LTEA_HepaRG_TNFRSF1A_dn
TOX21_AR_LUC_MDAKB2_Agonist
OT_ER_ERbERb_1440
CEETOX_H295R_11DCORT_up
CEETOX_H295R_OHPREG_up
CEETOX_H295R_CORTIC_up
CEETOX_H295R_CORTISOL_up
CEETOX_H295R_PROG_up
TOX21_RT_HEK293_FLO_08hr_viability
TOX21_ERa_LUC_VM7_Agonist_10nM_ICI182780
OT_ER_ERaERa_0480
OT_ER_ERaERb_0480
LTEA_HepaRG_MMP3_dn
TOX21_PR_BLA_Agonist_ratio
NVS_ADME_hCYP2C19
ATG_E_Box_CIS_up
ATG_NF_kB_CIS_up
ATG_ERa_TRANS_up
BSK_BE3C_HLADR_down
BSK_BE3C_MMP1_up
BSK_hDFCGF_CollagenIII_down
LTEA_HepaRG_CDKN1A_up
LTEA_HepaRG_EGF_up
LTEA_HepaRG_FASN_up
LTEA_HepaRG_IL6_dn
LTEA_HepaRG_LIPC_dn
LTEA_HepaRG_MIR122_dn
LTEA_HepaRG_THRSP_up
LTEA_HepaRG_TP53_dn
TOX21_ERR_Agonist
CCTE_Deisenroth_AIME_384WELL_LUC_Active_up
CCTE_Deisenroth_AIME_384WELL_LUC_Inactive_up
NVS_GPCR_gLTB4
BSK_CASM3C_HLADR_up
BSK_SAg_Eselectin_up
CEETOX_H295R_ANDR_dn
CEETOX_H295R_CORTIC_dn
CEETOX_H295R_CORTISOL_dn
CEETOX_H295R_ESTRONE_dn
CEETOX_H295R_TESTO_dn
CEETOX_H295R_MTT_cell_viability_up
CCTE_Simmons_GUA_TPO_dn
LTEA_HepaRG_ABCC2_up
LTEA_HepaRG_CYP2C9_up
LTEA_HepaRG_FABP1_up
NVS_TR_gDAT
CEETOX_H295R_DOC_up
CEETOX_H295R_ESTRADIOL_dn
LTEA_HepaRG_ACLY_up
LTEA_HepaRG_NFE2L2_up
CCTE_Deisenroth_AIME_96WELL_LUC_Active_up
OT_ERa_EREGFP_0120
ATG_Ahr_CIS_up
BSK_3C_Eselectin_down
BSK_3C_ICAM1_down
BSK_3C_MIG_down
BSK_3C_TissueFactor_down
BSK_4H_SRB_down
BSK_hDFCGF_IP10_down
BSK_hDFCGF_SRB_down
BSK_SAg_MIG_down
BSK_SAg_SRB_down
APR_HepG2_MitoMass_24h_dn
CCTE_GLTED_hDIO2_dn
CCTE_GLTED_hDIO3_dn
IUF_NPC1a_proliferation_BrdU_72hr_dn
IUF_NPC2a_radial_glia_migration_72hr_dn
IUF_NPC2a_ radial_glia_migration_120hr_dn
IUF_NPC2b_neuronal_migration_120hr_up
IUF_NPC2b_neuronal_migration_120hr_dn
IUF_NPC2c_oligodendrocyte_migration_120hr_dn
IUF_NPC3_neuronal_differentiation_120hr_up
IUF_NPC3_neuronal_differentiation_120hr_dn
IUF_NPC4_neurite_length_120hr_dn
IUF_NPC4_neurite_area_120hr_dn
IUF_NPC5_oligodendrocyte_differentiation_120hr_dn
IUF_NPC2-5_cytotoxicity_72hr
IUF_NPC2-5_cell_number_120hr_dn
IUF_NPC2-5_viability_120hr_dn
CCTE_Shafer_MEA_dev_firing_rate_mean_dn
CCTE_Shafer_MEA_dev_burst_rate_dn
CCTE_Shafer_MEA_dev_active_electrodes_number_dn
CCTE_Shafer_MEA_dev_bursting_electrodes_number_dn
CCTE_Shafer_MEA_dev_per_burst_spike_percent_dn
CCTE_Shafer_MEA_dev_burst_duration_mean_dn
CCTE_Shafer_MEA_dev_interburst_interval_mean_dn
CCTE_Shafer_MEA_dev_network_spike_number_dn
CCTE_Shafer_MEA_dev_network_spike_peak_dn
CCTE_Shafer_MEA_dev_spike_duration_mean_dn
CCTE_Shafer_MEA_dev_network_spike_duration_std_dn
CCTE_Shafer_MEA_dev_inter_network_spike_interval_mean_dn
CCTE_Shafer_MEA_dev_per_network_spike_spike_number_mean_dn
CCTE_Shafer_MEA_dev_per_network_spike_spike_percent_dn
CCTE_Shafer_MEA_dev_correlation_coefficient_mean_dn
CCTE_Shafer_MEA_dev_LDH_dn
CCTE_Shafer_MEA_dev_AB_dn
CCTE_Mundy_HCI_Cortical_NOG_BPCount_loss
CCTE_Mundy_HCI_Cortical_NOG_NeuriteCount_loss
CCTE_Mundy_HCI_Cortical_NOG_NeuriteLength_loss
CCTE_Mundy_HCI_Cortical_NOG_NeuronCount_loss
CCTE_Mundy_HCI_Cortical_Synap&Neur_Matur_BPCount_loss
CCTE_Mundy_HCI_Cortical_Synap&Neur_Matur_CellBodySpotCount_loss
CCTE_Mundy_HCI_Cortical_Synap&Neur_Matur_NeuriteCount_loss
CCTE_Mundy_HCI_Cortical_Synap&Neur_Matur_NeuriteLength_loss
CCTE_Mundy_HCI_Cortical_Synap&Neur_Matur_NeuriteSpotCountPerNeuron_loss
CCTE_Mundy_HCI_Cortical_Synap&Neur_Matur_NeuronCount_loss
CCTE_Mundy_HCI_Cortical_Synap&Neur_Matur_SynapseCount_loss
CCTE_Mundy_HCI_CDI_NOG_BPCount_loss
CCTE_Mundy_HCI_CDI_NOG_NeuriteCount_loss
CCTE_Mundy_HCI_CDI_NOG_NeuriteLength_loss
CCTE_Mundy_HCI_CDI_NOG_NeuronCount_loss
BSK_3C_IL8_up
BSK_4H_VEGFRII_up
BSK_BE3C_tPA_down
BSK_CASM3C_MCP1_down
BSK_CASM3C_MIG_down
BSK_hDFCGF_EGFR_down
BSK_hDFCGF_IL8_down
BSK_hDFCGF_MMP1_down
BSK_KF3CT_IL1a_down
BSK_KF3CT_TIMP2_down
BSK_KF3CT_uPA_down
BSK_BE3C_EGFR_down
BSK_BE3C_MMP9_down
BSK_CASM3C_PAI1_down
BSK_hDFCGF_ICAM1_down
BSK_hDFCGF_ITAC_down
BSK_hDFCGF_TIMP2_down
BSK_KF3CT_PAI1_down
BSK_LPS_CD69_down
BSK_3C_TissueFactor_up
BSK_4H_Pselectin_up
BSK_CASM3C_VCAM1_down
BSK_hDFCGF_MIG_down
BSK_KF3CT_ICAM1_down
BSK_KF3CT_MCP1_down
BSK_KF3CT_SRB_down
BSK_LPS_Eselectin_down
BSK_BE3C_ITAC_down
BSK_hDFCGF_MCP1_down
BSK_KF3CT_IL8_down
BSK_KF3CT_MIG_down
UKN2_HCS_IMR90_neural_migration_dn
TOX21_ELG1_LUC_Agonist
NVS_ENZ_hCASP10
CCTE_Shafer_MEA_acute_interburst_interval_mean_up
CCTE_Shafer_MEA_acute_per_network_burst_spike_number_mean_up
CCTE_Shafer_MEA_acute_per_network_burst_spike_number_std_up
CEETOX_H295R_MTT_cell_viability_dn
TOX21_MMP_ratio_up
TOX21_VDR_BLA_agonist_ratio
UPITT_HCI_U2OS_AR_TIF2_Nucleoli_Agonist
UPITT_HCI_U2OS_AR_TIF2_Nucleoli_Cytoplasm_Ratio_Agonist
ATG_AR_TRANS_up
NVS_NR_hGR
OT_ER_ERaERa_1440
OT_ER_ERbERb_0480
BSK_CASM3C_IL6_down
BSK_CASM3C_IL8_down
BSK_LPS_TNFa_up
OT_AR_ARSRC1_0480
OT_ERa_EREGFP_0480
NVS_ENZ_hPDE5
NVS_ENZ_hPTPRC
NVS_GPCR_rmAdra2B
NVS_NR_bPR
NVS_NR_hPR
NVS_NR_hRARa_Agonist
NVS_NR_rMR
NVS_TR_hAdoT
NVS_NR_cAR
NVS_NR_rAR
NVS_TR_rVMAT2
ATG_chAR_XSP1_up
ATG_frAR_XSP1_up
ATG_hAR_XSP1_up
ATG_trAR_XSP1_up
ATG_zfAR_XSP1_up
ATG_trAR_XSP2_up
ATG_hAR_XSP2_up
ATG_chAR_XSP2_up
ATG_frAR_XSP2_up
ATG_hERa_XSP2_up
LTEA_HepaRG_ABCB11_dn
LTEA_HepaRG_CYP2E1_up
LTEA_HepaRG_CYP3A5_dn
LTEA_HepaRG_CYP4A11_up
LTEA_HepaRG_CYP4A22_up
LTEA_HepaRG_GADD45G_dn
LTEA_HepaRG_ICAM1_dn
LTEA_HepaRG_THRSP_dn
LTEA_HepaRG_SLC10A1_dn
TOX21_AR_LUC_MDAKB2_Agonist_3uM_Nilutamide
TOX21_ERb_BLA_Agonist_ratio
TOX21_PR_BLA_Followup_Agonist_ratio
TOX21_PR_LUC_Followup_Agonist
TOX21_CASP3_CHO
NVS_ADME_hCYP2D6
NVS_GPCR_h5HT7
NVS_GPCR_hAdra2A
NVS_GPCR_hM2
NVS_GPCR_hM4
NVS_GPCR_rAdra1A
NVS_IC_rCaBTZCHL
NVS_LGIC_bGABARa1
NVS_OR_gSIGMA_NonSelective
ATG_FoxA2_CIS_up
APR_HepG2_CellCycleArrest_24h_up
BSK_hDFCGF_MCSF_down
CEETOX_H295R_11DCORT_noMTC_dn
CEETOX_H295R_OHPREG_noMTC_dn
CEETOX_H295R_ANDR_noMTC_dn
CEETOX_H295R_CORTIC_noMTC_dn
CEETOX_H295R_CORTISOL_noMTC_dn
CEETOX_H295R_DOC_noMTC_dn
LTEA_HepaRG_SULT2A1_up
LTEA_HepaRG_TGFB1_up
BSK_LPS_IL1a_up
ATG_TCF_b_cat_CIS_up
ATG_GLI_CIS_up
ATG_XTT_Cytotoxicity_up
BSK_3C_Thrombomodulin_up
BSK_BE3C_IL1a_down
BSK_BE3C_MIG_down
BSK_BE3C_MMP1_down
BSK_BE3C_SRB_down
BSK_CASM3C_Thrombomodulin_down
BSK_hDFCGF_TIMP1_down
BSK_KF3CT_TGFb1_down
BSK_MyoF_ACTA1_down
BSK_MyoF_bFGF_down
BSK_MyoF_VCAM1_down
BSK_MyoF_CollagenI_down
BSK_MyoF_CollagenIII_down
BSK_MyoF_CollagenIV_down
BSK_MyoF_IL8_down
BSK_MyoF_PAI1_down
BSK_MyoF_SRB_down
BSK_MyoF_TIMP1_down
NVS_GPCR_hDRD1
ATG_HIF1a_CIS_up
ATG_IR1_CIS_up
ATG_FXR_TRANS_up
ATG_RARg_TRANS_up
BSK_3C_Thrombomodulin_down
NVS_GPCR_hORL1
TOX21_RT_HEK293_GLO_00hr_viability
BSK_LPS_PGE2_up
CCTE_Mundy_HCI_hN2_NOG_BPCount_loss
CCTE_Mundy_HCI_hN2_NOG_NeuriteLength_loss
NVS_ADME_hCYP19A1
ATG_frER1_XSP2_up
CEETOX_H295R_OHPROG_noMTC_dn
CEETOX_H295R_DOC_noMTC_up
CEETOX_H295R_ESTRADIOL_noMTC_dn
CEETOX_H295R_ESTRONE_noMTC_dn
CEETOX_H295R_TESTO_noMTC_dn
CCTE_Shafer_MEA_acute_burst_duration_mean_dn
CCTE_Shafer_MEA_acute_per_burst_spike_number_mean_dn
CCTE_Shafer_MEA_acute_cross_correlation_HWHM_up
CCTE_Shafer_MEA_dev_mutual_information_norm_dn
CCTE_Deisenroth_AIME_96WELL_LUC_Inactive_up
CCTE_Deisenroth_AIME_384WELL_LUC_Shift_up
CCTE_Shafer_MEA_acute_burst_percentage_std_up
TAMU_PeakParms_SingleDonor1434_Chronotropy_Positive
TAMU_PeakParms_SingleDonor1434_Asystole
LTEA_HepaRG_GADD45B_dn
CCTE_Shafer_MEA_acute_per_network_burst_electrodes_number_mean_up
BSK_BE3C_Keratin818_down
NVS_ENZ_hMMP9
ATG_DR4_LXR_CIS_up
ATG_LXRb_TRANS_up
TOX21_PR_BLA_Followup_Antagonist_ratio
TOX21_PR_LUC_Followup_Antagonist
ATG_Ets_CIS_up
ATG_GRE_CIS_up
ATG_HNF6_CIS_up
ATG_THRa1_TRANS_up
CCTE_Simmons_MITO_basal_resp_rate_OCR_dn
CCTE_Simmons_MITO_max_resp_rate_OCR_dn
CLD_SULT2A_48hr
NVS_ADME_rCYP2C13
STM_H9_OrnithineISnorm_perc_dn
CPHEA_Stoker_NIS_Inhibition_RAIU
CPHEA_Stoker_NIS_Cytotoxicity
LTEA_HepaRG_CYP3A5_up
LTEA_HepaRG_EGR1_dn
CCTE_Simmons_MITO_inhib_resp_rate_OCR_dn
CCTE_Deisenroth_AIME_384WELL_CTox_Active_dn
CCTE_GLTED_hIYD_dn
NVS_ADME_hCYP2B6
NVS_ADME_hCYP2C9
NVS_ENZ_hCASP5
NVS_ENZ_hElastase
NVS_ENZ_hMMP1
NVS_ENZ_hMMP13
NVS_ENZ_hMMP2
NVS_ENZ_rCOMT
NVS_GPCR_h5HT5A
NVS_GPCR_hAdoRA1
NVS_GPCR_hAdoRA2a
NVS_GPCR_hAdra2C
NVS_GPCR_hAdrb1
NVS_GPCR_hDRD2s
NVS_GPCR_hH1
NVS_GPCR_hNK2
NVS_GPCR_hOpiate_D1
NVS_GPCR_hOpiate_mu
NVS_IC_rNaCh_site2
NVS_NR_hPPARg
ATG_LXRa_TRANS_up
ATG_VDR_TRANS_up
BSK_BE3C_TGFb1_down
BSK_BE3C_uPAR_down
APR_HepG2_MicrotubuleCSK_24h_dn
APR_HepG2_StressKinase_24h_up
VALA_TUBHUV_Agonist_CellCount_dn
VALA_TUBHUV_Agonist_TubuleLength_up
VALA_MIGHUV2_BCatenin_up
CCTE_GLTED_hDIO1_dn
LTEA_HepaRG_HGF_up
LTEA_HepaRG_NQO1_up
TOX21_TRB_BLA_Antagonist_Followup_ratio
CCTE_Harrill_HTTr_Viability_MCF7_DMEM_6hr
LTEA_HepaRG_ACOX1_up
LTEA_HepaRG_HMGCS2_up
BSK_LPS_Thrombomodulin_down
NVS_TR_rSERT
APR_HepG2_MitoMembPot_1h_dn
NVS_ADME_rCYP3A2
LTEA_HepaRG_ABCG2_up
ATG_p53_CIS_up
NVS_ENZ_hCDK2
NVS_ENZ_hCK1D
NVS_ENZ_hGSK3b
NVS_ENZ_hMMP3
NVS_ENZ_hPI3Ka
NVS_ENZ_hROCK1
NVS_GPCR_hTXA2
LTEA_HepaRG_ABCB11_up
LTEA_HepaRG_ABCC2_dn
LTEA_HepaRG_ABCC3_up
LTEA_HepaRG_BCL2_up
LTEA_HepaRG_BCL2L11_up
LTEA_HepaRG_CASP8_up
LTEA_HepaRG_CCND1_up
LTEA_HepaRG_CFLAR_up
LTEA_HepaRG_FMO3_up
LTEA_HepaRG_FOXO1_up
LTEA_HepaRG_FOXO3_up
LTEA_HepaRG_GCLC_up
LTEA_HepaRG_GSTM3_dn
LTEA_HepaRG_LPL_up
LTEA_HepaRG_NFKB1_up
LTEA_HepaRG_PTEN_up
LTEA_HepaRG_TNFRSF1A_up
LTEA_HepaRG_TP53_up
TOX21_SBE_BLA_Agonist_ratio
NVS_ENZ_hPTEN
ATG_GR_TRANS_up
CCTE_Deisenroth_AIME_96WELL_CTox_Active_dn
CCTE_Deisenroth_AIME_96WELL_CTox_Inactive_dn
APR_HepG2_NuclearSize_72h_up
TAMU_HCS_1.5hr_SingleDonor1434_Cytotoxicity
ATG_XTT_Cytotoxicity_XSP1_up
CCTE_Shafer_MEA_dev_per_burst_interspike_interval_dn
LTEA_HepaRG_ABCC3_dn
LTEA_HepaRG_CASP8_dn
LTEA_HepaRG_CCND1_dn
LTEA_HepaRG_IGF1_up
LTEA_HepaRG_IL6R_dn
LTEA_HepaRG_LIPC_up
LTEA_HepaRG_MYC_dn
LTEA_HepaRG_PEG10_up
LTEA_HepaRG_STAT3_up
LTEA_HepaRG_UGT1A1_dn
LTEA_HepaRG_XBP1_up
CCTE_Deisenroth_AIME_384WELL_LUC_Shift_dn
NVS_ADME_hCYP1A2
NVS_ADME_hCYP1B1
NVS_ADME_hCYP2J2
NVS_ADME_rCYP2B1
NVS_ADME_rCYP2C11
NVS_ADME_rCYP2C6
NVS_ADME_rCYP2E1
NVS_NR_hFXR_Antagonist
APR_HepG2_MitoMass_72h_up
BSK_hDFCGF_TIMP1_up
VALA_MIGHUV1_ScratchOnly_CellCount_dn
ArunA_NOG_NeuriteLength_dn
VALA_TUBHUV_Antagonist_TubuleLength_dn
VALA_TUBIPS_Agonist_CellCount_dn
VALA_TUBIPS_Agonist_TubuleLength_up
VALA_TUBIPS_Antagonist_TubuleLength_dn
VALA_MIGHUV1_ScratchOnly_WoundArea_up
VALA_MIGHUV2_CellCount_dn
VALA_MIGHUV2_WoundArea_up
ArunA_CellTiter_hNC_dn
ArunA_NOG_NeuritesPerNeuron_dn
LTEA_HepaRG_CYP3A4_dn
LTEA_HepaRG_LPL_dn
LTEA_HepaRG_SDHB_up
LTEA_HepaRG_MMP1_up
NVS_ENZ_hVEGFR1
BSK_MyoF_MMP1_up
CEETOX_H295R_TESTO_up
BSK_hDFCGF_Proliferation_up
LTEA_HepaRG_TIMP1_up
NVS_GPCR_gLTD4
NVS_GPCR_mCCKAPeripheral
NVS_GPCR_rNK1
NVS_GPCR_rNK3
NVS_IC_rKATPCh
NVS_TR_hSERT
APR_HepG2_MicrotubuleCSK_24h_up
LTEA_HepaRG_ABCG2_dn
LTEA_HepaRG_BAD_dn
LTEA_HepaRG_CFLAR_dn
LTEA_HepaRG_EGR1_up
LTEA_HepaRG_TGFA_dn
ATG_RORb_TRANS_up
BSK_CASM3C_LDLR_up
NVS_ENZ_hPDE10
NVS_GPCR_g5HT4
NVS_GPCR_gBK2
NVS_GPCR_h5HT2A
NVS_GPCR_hM1
NVS_GPCR_hM5
NVS_GPCR_p5HT2C
NVS_GPCR_rabPAF
NVS_GPCR_rAdra1B
NVS_IC_hKhERGCh
NVS_LGIC_rGluNMDA_MK801_Agonist
NVS_TR_rNET
NVS_ENZ_hInsR
NVS_ENZ_hPTPN2
NVS_GPCR_gH2
NVS_GPCR_gMPeripheral_NonSelective
NVS_GPCR_rAdra1_NonSelective
NVS_GPCR_rH3
CCTE_Shafer_MEA_acute_burst_duration_mean_up
LTEA_HepaRG_EZR_dn
LTEA_HepaRG_FAS_dn
LTEA_HepaRG_GADD45A_dn
LTEA_HepaRG_ICAM1_up
LTEA_HepaRG_IL6R_up
LTEA_HepaRG_NFE2L2_dn
LTEA_HepaRG_PDK4_dn
TOX21_TR_LUC_GH3_Antagonist_Followup
TOX21_TRB_BLA_Antagonist_Followup_viability
TOX21_TR_RXR_BLA_Antagonist_Followup_viability
IUF_NPC1_viability_72hr_dn
IUF_NPC2a_ radial_glia_migration_120hr_up
IUF_NPC2-5_cytotoxicity_120hr
CCTE_Shafer_MEA_dev_per_network_spike_spike_number_mean_up
CCTE_Shafer_MEA_dev_per_network_spike_spike_percent_up
CCTE_Mundy_HCI_hNP1_Casp3_7_gain
CCTE_Mundy_HCI_hNP1_CellTiter_loss
TOX21_TR_LUC_GH3_Agonist_Followup
LTEA_HepaRG_BID_up
LTEA_HepaRG_CASP3_up
LTEA_HepaRG_EZR_up
CCTE_Mundy_HCI_hNP1_Pro_ResponderAvgInten_loss
NVS_ADME_hCYP3A4
APR_HepG2_MicrotubuleCSK_72h_dn
APR_HepG2_MitoMass_72h_dn
TAMU_PeakParms_SingleDonor1434_QT_Prolongation
ATG_zfER2b_XSP2_up
ATG_hPPARg_XSP2_up
ATG_mPXR_XSP2_up
LTEA_HepaRG_PPP2R4_up
NVS_ENZ_hES
NVS_ENZ_rMAOAC
NVS_ENZ_rMAOAP
NVS_GPCR_gOpiateK
NVS_GPCR_r5HT_NonSelective
NVS_GPCR_rOpiate_NonSelective
NVS_GPCR_rOpiate_NonSelectiveNa
NVS_LGIC_rGABAR_NonSelective
APR_HepG2_NuclearSize_24h_dn
LTEA_HepaRG_ADK_up
LTEA_HepaRG_GSTA2_up
NVS_ENZ_hDUSP3
CCTE_Simmons_MITO_inhib_resp_rate_OCR_up
ATG_AP_2_CIS_up
NVS_NR_hPXR
LTEA_HepaRG_HIF1A_dn
NVS_LGIC_bGABAR_Agonist
NVS_GPCR_rAdra2_NonSelective
NVS_LGIC_rNNR_BungSens
NVS_ADME_hCYP1A1
NVS_ADME_rCYP3A1
NVS_GPCR_rV1
BSK_SAg_PBMCCytotoxicity_up
CLD_ABCB1_48hr
CLD_ABCG2_48hr
CLD_GSTA2_48hr
ATG_zfER1_XSP2_up
ATG_frER2_XSP2_up
ATG_mPPARg_XSP2_up
ATG_chERa_XSP2_up
BSK_CASM3C_MCSF_up
BSK_LPS_MCP1_up
LTEA_HepaRG_KCNK1_dn
APR_HepG2_MitoMass_24h_up
APR_HepG2_NuclearSize_72h_dn
BSK_CASM3C_Proliferation_up
ATG_frGR_EcoTox2_up
ATG_hPPARg_EcoTox2_up
ATG_hERa_EcoTox2_up
ATG_hGR_EcoTox2_up
CCTE_Simmons_MITO_viability
CLD_ABCB11_24hr
ATG_ERRg_TRANS_up
ATG_RARa_TRANS_up
BSK_MyoF_Decorin_up
BSK_MyoF_MMP1_down
NVS_LGIC_hNNR_NBungSens
NVS_GPCR_hM3
NVS_GPCR_hNPY1
NVS_GPCR_hNTS
ATG_GATA_CIS_up
ATG_CAR_TRANS_up
ATG_ERRa_TRANS_up
ATG_RARb_TRANS_up
BSK_KF3CT_TGFb1_up
NVS_GPCR_hV1A
TOX21_TR_LUC_GH3_Agonist
NVS_ADME_hCYP2C18
NVS_ADME_rCYP2A1
NVS_ADME_rCYP2A2
NVS_ADME_rCYP2D1
NVS_ADME_rCYP2D2
NVS_IC_rCaDHPRCh_L
CLD_ABCB11_6hr
OT_PPARg_PPARgSRC1_1440
OT_PPARg_PPARgSRC1_0480
ATG_zfER2b_XSP1_up
ATG_frER2_XSP1_up
ATG_chERa_XSP1_up
ATG_hERa_XSP1_up
ATG_hPPARg_XSP1_up
ATG_mPPARg_XSP1_up
ATG_mPXR_XSP1_up
ATG_zfPPARg_XSP2_up
CLD_ABCG2_24hr
CLD_HMGCS2_24hr
NVS_ENZ_hACP1
NVS_ENZ_hAMPKa1
NVS_ENZ_hAurA
NVS_ENZ_hCK1a
NVS_ENZ_hCK2a2b2
NVS_ENZ_hFGFR1
NVS_ENZ_hMAPKAPK5
NVS_ENZ_hMARK1
NVS_ENZ_hPPP1CA
NVS_ENZ_hPTPN1
NVS_ENZ_hPTPN11
NVS_ENZ_hPTPN13
NVS_ENZ_hPTPN4
NVS_ENZ_hPTPN9
NVS_ENZ_hPTPRM
NVS_ENZ_hSyk
NVS_ENZ_hDYRK1a
NVS_NR_hCAR_Antagonist
ATG_ISRE_CIS_up
CCTE_GLTED_hTTR_dn
BSK_LPS_IL8_up
BSK_BF4T_MMP3_up
BSK_IMphg_IL10_down
NVS_ENZ_rCNOS
NVS_ENZ_rMAOBP
NVS_ENZ_hAChE
NVS_ENZ_rAChE
BSK_BE3C_IL1a_up
CLD_ABCB1_24hr
CCTE_Mundy_HCI_Cortical_Synap&Neur_Matur_NeuriteSpotCountPerNeuriteLength_loss
CCTE_Mundy_HCI_hN2_NOG_NeuriteCount_loss
CCTE_Mundy_HCI_hN2_NOG_NeuronCount_loss
CCTE_Mundy_HCI_hNP1_Pro_MeanAvgInten_loss
APR_HepG2_CellLoss_1h_dn
APR_HepG2_NuclearSize_1h_dn
APR_HepG2_P-H2AX_1h_up
APR_HepG2_p53Act_1h_up
APR_HepG2_StressKinase_1h_up
APR_HepG2_p53Act_24h_dn
APR_HepG2_StressKinase_24h_dn
CLD_SULT2A_24hr
CLD_CYP2C9_48hr
CCTE_Shafer_MEA_acute_AB_dn
LTEA_HepaRG_BAD_up
LTEA_HepaRG_HSPA1A_dn
CCTE_Deisenroth_5AR NBTE_ratio_dn
NVS_NR_hFXR_Agonist
NVS_NR_hTRa_Antagonist
ATG_jmPPARg_EcoTox2_up
ATG_zfPPARg_EcoTox2_up
ATG_trERa_XSP1_up
ATG_zfPPARg_XSP1_up
ATG_STAT3_CIS_up
BSK_MyoF_CollagenIV_up
NVS_ADME_hCYP3A5
NVS_ADME_rCYP2C12
ATG_zfER2a_XSP2_up
ATG_XTT_Cytotoxicity_XSP2_up
ATG_trERa_XSP2_up
ATG_frTRa_XSP2_up
NVS_GPCR_bAdoR_NonSelective
ArunA_NOG_NucleusCount_dn
LTEA_HepaRG_ALPP_up
NVS_ENZ_hCASP4
LTEA_HepaRG_DDIT3_dn
ATG_hTRa_XSP1_up
ATG_trTRa_XSP1_up
ATG_hTRb_XSP1_up
ATG_zfTRb_XSP1_up
CEETOX_H295R_OHPROG_noMTC_up
ATG_hTRb_XSP2_up
BSK_4H_uPAR_up
BSK_hDFCGF_IP10_up
BSK_BE3C_ICAM1_down
BSK_BE3C_IL8_down
BSK_LPS_Thrombomodulin_up
NVS_ENZ_pMTHFR
NVS_GPCR_rTRH
CEETOX_H295R_PROG_noMTC_up
TOX21_TRA_COA_Agonist_Followup_ratio
TOX21_TRB_BLA_Agonist_Followup_ratio
ATG_E2F_CIS_up
NVS_GPCR_r5HT1_NonSelective
BSK_CASM3C_uPAR_up
ATG_hERb_XSP2_up
NVS_ENZ_hAKT1
NVS_ENZ_hAKT2
NVS_ENZ_hCSF1R
NVS_ENZ_hMet
NVS_GPCR_h5HT6
NVS_GPCR_hAdrb2
NVS_GPCR_hDRD4.4
NVS_GPCR_hPY2
NVS_NR_hPPARa
CLD_SULT2A_6hr
CLD_ABCB11_48hr
NVS_ADME_hCYP2C8
CLD_SLCO1B1_24hr
NVS_ENZ_hEphA1
APR_HepG2_CellCycleArrest_1h_dn
NVS_ENZ_hSIRT2
NVS_GPCR_rSST
ATG_hERb_XSP1_up
ATG_zfTRb_XSP2_up
LTEA_HepaRG_APOA5_up
CCTE_Shafer_MEA_acute_per_burst_spike_number_mean_up
APR_HepG2_StressKinase_72h_dn
CCTE_Shafer_MEA_acute_burst_percentage_mean_up
CCTE_Shafer_MEA_acute_cross_correlation_area_up
CCTE_Shafer_MEA_acute_synchrony_index_up
NVS_LGIC_h5HT3
LTEA_HepaRG_CYP24A1_1_up
BSK_BE3C_uPAR_up
BSK_CASM3C_TissueFactor_up
BSK_KF3CT_MCP1_up
BSK_MyoF_IL8_up
IUF_NPC2c_oligodendrocyte_migration_120hr_up
BSK_3C_MCP1_up
BSK_CASM3C_IL8_up
BSK_CASM3C_MCP1_up
BSK_BT_xIL6_up
NVS_GPCR_hLTB4_BLT1
TOX21_PR_BLA_Followup_Agonist_viability
BSK_hDFCGF_MCSF_up
BSK_hDFCGF_PAI1_up
BSK_MyoF_Decorin_down
BSK_3C_Proliferation_up
BSK_BT_xTNFa_up
BSK_BF4T_IL8_up
BSK_hDFCGF_SRB_up
ATG_frER1_EcoTox2_up
BSK_3C_uPAR_up
BSK_LPS_CD40_up
CCTE_Shafer_MEA_dev_burst_duration_mean_up
NVS_ENZ_rabI2C
NVS_GPCR_bDR_NonSelective
BSK_KF3CT_ICAM1_up
NVS_GPCR_rAdrb_NonSelective
BSK_SAg_CD69_up
ATG_frER1_XSP1_up
CCTE_Shafer_MEA_acute_spike_number_up
CCTE_Shafer_MEA_acute_firing_rate_mean_up
CCTE_Shafer_MEA_acute_network_burst_percentage_up
BSK_CASM3C_MIG_up
BSK_CASM3C_VCAM1_up
NVS_ENZ_hJak2
NVS_ENZ_hSRC
NVS_ENZ_hFyn
NVS_ENZ_hVEGFR2
STM_H9_CystineISnorm_perc_dn
ATG_zfER1_XSP1_up
ATG_zfER2a_XSP1_up
ATG_trTRa_XSP2_up
ATG_hTRa_XSP2_up
ATG_zfTRa_XSP2_up
APR_HepG2_p53Act_72h_dn
TOX21_TR_RXR_BLA_Antagonist_Followup_ratio
BSK_4H_SRB_up
CCTE_GLTED_hTPO_dn
CCTE_Deisenroth_DEVTOX_RUES2-GLR_Endo_Sox17_dn
CCTE_Deisenroth_DEVTOX_RUES2-GLR_Endo_Bra_up
IUF_NPC1a_proliferation_area_72hr_dn
CCTE_Deisenroth_DEVTOX_RUES2-GLR_Endo_Sox2_up
CCTE_Deisenroth_DEVTOX_RUES2-GLR_Endo_CellCount_dn
ATG_frTRa_XSP1_up
ATG_zfTRa_XSP1_up
TOX21_TR_RXR_BLA_Agonist_Followup_ratio
TOX21_TR_RXR_BLA_Agonist_Followup_viability
BSK_LPS_TissueFactor_up
BSK_3C_SRB_up
APR_HepG2_MitoMembPot_72h_up
BSK_BF4T_MCP1_down
BSK_LPS_Eselectin_up
NVS_ADME_hCYP2A6
BSK_SAg_CD38_up
CLD_HMGCS2_48hr
APR_HepG2_CellCycleArrest_72h_up
BSK_KF3CT_MMP9_up
NVS_GPCR_mCKKBCentral
NVS_GPCR_hAT1
CEETOX_H295R_ANDR_up
CLD_ABCB1_6hr
CCTE_Harrill_HTTr_Viability_DMEM_24hr
CCTE_Harrill_HTTr_Viability_PRF_DMEM_24hr
CCTE_Harrill_HTTr_Apoptosis_DMEM_24hr
CCTE_Harrill_HTTr_Apoptosis_PRF_DMEM_24hr
TOX21_TRB_COA_Antagonist_Followup_ratio
BSK_MyoF_TIMP1_up
BSK_BF4T_Eotaxin3_down
BSK_BE3C_ITAC_up
BSK_IMphg_CD69_down
LTEA_HepaRG_CDKN1A_dn
NVS_ADME_hCYP4F12
NVS_GPCR_bH1
LTEA_HepaRG_MIR122_up
BSK_IMphg_IL8_up
CCTE_GLTED_hTBG_dn
NVS_ENZ_hCASP1
NVS_ENZ_hCASP2
BSK_KF3CT_IL1a_up
TOX21_PR_LUC_Followup_Agonist_viability
TOX21_PR_LUC_Followup_Antagonist_viability
APR_HepG2_MitoticArrest_72h_dn
CCTE_Shafer_MEA_dev_interburst_interval_mean_up
BSK_3C_HLADR_up
NVS_GPCR_rOXT
NVS_ENZ_hMAPKAPK2
BSK_BF4T_tPA_down
BSK_IMphg_MCP1_down
BSK_IMphg_ESelectin_down
BSK_IMphg_SRB_down
BSK_IMphg_SRB.Mphg_down
LTEA_HepaRG_IGFBP1_dn
BSK_3C_Eselectin_up
IUF_NPC1a_proliferation_area_72hr_up
CCTE_Mundy_HCI_hNP1_Pro_ObjectCount_loss
NVS_ENZ_hSIRT1
NVS_ENZ_rACFSKBinding
NVS_GPCR_bAT2
NVS_GPCR_bNPY_NonSelective
NVS_GPCR_hAdrb3
NVS_GPCR_hETA
NVS_GPCR_hETB
NVS_GPCR_hNPY2
NVS_GPCR_rGalanin
NVS_GPCR_rmMGluR1
NVS_GPCR_rmMGluR5
NVS_GPCR_rVIP_NonSelective
CCTE_Shafer_MEA_acute_LDH_up
CCTE_Harrill_HTTr_Apoptosis_MCF7_DMEM_6hr
CCTE_Shafer_MEA_dev_correlation_coefficient_mean_up
LTEA_HepaRG_SLCO1B1_up
CCTE_Shafer_MEA_dev_burst_rate_up
BSK_IMphg_MIP1a_down
BSK_IMphg_VCAM1_down
BSK_BF4T_VCAM1_down
BSK_BF4T_IL8_down
BSK_BF4T_PAI1_down
BSK_IMphg_IL1a_down
BSK_IMphg_MCSF_down
BSK_4H_Eotaxin3_up
BSK_hDFCGF_CollagenIII_up
NVS_ENZ_hSIRT3
NVS_LGIC_rGluNMDA_Agonist
LTEA_HepaRG_GSTM3_up
NVS_ADME_hCYP2E1
ATG_hRXRb_EcoTox2_up
ATG_frRXRb_EcoTox2_up
ATG_rtRXRb_EcoTox2_up
ATG_jmRXRb_EcoTox2_up
ATG_zfRXRb_EcoTox2_up
BSK_SAg_CD40_up
CEETOX_H295R_PROG_noMTC_dn
ATG_hPPARa_EcoTox2_up
ATG_frPPARa_EcoTox2_up
ATG_rtPPARa_EcoTox2_up
BSK_KF3CT_IP10_up
IUF_NPC1_cytotoxicity_72hr
APR_HepG2_MicrotubuleCSK_1h_up
APR_HepG2_MitoticArrest_24h_dn
CLD_ABCG2_6hr
CLD_CYP2C19_6hr
CLD_SLCO1B1_6hr
LTEA_HepaRG_SLC22A1_up
CCTE_Shafer_MEA_dev_bursting_electrodes_number_up
CCTE_Shafer_MEA_dev_per_burst_spike_percent_up
CCTE_Shafer_MEA_acute_burst_number_up
BSK_BF4T_CD90_down
BSK_BF4T_IL1a_down
BSK_BF4T_Keratin818_down
BSK_BF4T_MMP1_down
BSK_BF4T_uPA_down
BSK_BF4T_ICAM1_down
BSK_BF4T_MMP3_down
BSK_BF4T_MMP9_down
BSK_BF4T_SRB_down
BSK_IMphg_CD40_down
BSK_IMphg_ESelectin_up
BSK_IMphg_IL8_down
BSK_hDFCGF_TIMP2_up
BSK_3C_ICAM1_up
BSK_BF4T_tPA_up
BSK_IMphg_MIP1a_up
ArunA_NOG_BranchPointsPerNeurite_dn
NVS_ENZ_hTrkA
BSK_BE3C_PAI1_up
BSK_KF3CT_TIMP2_up
BSK_SAg_MCP1_up
CCTE_GLTED_xIYD_dn
CCTE_GLTED_xDIO3_dn
BSK_BT_PBMCCytotoxicity_up
NVS_ENZ_hBTK
NVS_ENZ_hCDK6
NVS_ENZ_hEGFR
NVS_ENZ_hFGFR3
NVS_ENZ_hHDAC3
NVS_ENZ_hIKKa
NVS_ENZ_hMAPK1
NVS_ENZ_hPPP2CA
NVS_ENZ_hPTPN6
NVS_ENZ_hPTPRF
NVS_ENZ_hSGK1
NVS_ENZ_hZAP70
NVS_ENZ_hMsk1
NVS_ENZ_hEphA2
NVS_ENZ_hMAPK3
NVS_ENZ_hPAK4
NVS_ENZ_hPTPN12
NVS_ENZ_hTie2
NVS_ENZ_hVEGFR3
LTEA_HepaRG_KRT19_up
CCTE_Shafer_MEA_dev_inter_network_spike_interval_mean_up
BSK_LPS_CD69_up
NVS_ENZ_hPTPRB
BSK_BE3C_HLADR_up
APR_HepG2_MitoMass_1h_dn
APR_HepG2_MitoticArrest_1h_up
IUF_NPC5_oligodendrocyte_differentiation_120hr_up
NVS_LGIC_rAMPA
CCTE_Harrill_HTTr_Viability_DMEM_12hr
CCTE_Harrill_HTTr_Viability_PRF_DMEM_6hr
CCTE_Harrill_HTTr_Viability_PRF_DMEM_12hr
CCTE_Harrill_HTTr_Apoptosis_DMEM_12hr
NVS_GPCR_gANPA
BSK_BE3C_IL8_up
BSK_BF4T_MCP1_up
BSK_hDFCGF_CollagenI_down
BSK_BT_xIL17F_up
TOX21_TRB_BLA_Agonist_Followup_viability
NVS_ENZ_hHDAC6
CLD_CYP2C9_6hr
CLD_HMGCS2_6hr
BSK_MyoF_bFGF_up
BSK_hDFCGF_VCAM1_up
NVS_LGIC_bGABARa5
NVS_LGIC_rGABARa6
BSK_BE3C_Keratin818_up
NVS_ENZ_hMMP7
ATG_jmPPARa_EcoTox2_up
CLD_UGT1A1_6hr
ERF_NR_binding_hAR_up
ERF_ADME_hCYP2C8_dn
BSK_MyoF_CollagenI_up
BSK_hDFCGF_CollagenI_up
ERF_GPCR_binding_hCHRM1_dn
ERF_GPCR_binding_hCHRM2_dn
ERF_GPCR_binding_hCHRM3_dn
ERF_GPCR_binding_hCHRM4_dn
ERF_GPCR_binding_hGALR1_up
ERF_LGIC_binding_rGLRA1_dn
ERF_ENZ_hPDE4D2_dn
ERF_ENZ_hPTEN_dn
ERF_GPCR_binding_g5HT4_dn
ERF_GPCR_binding_hADRA2A_dn
ERF_GPCR_binding_hADRB3_dn
ERF_NR_binding_hHTR2C_dn
ERF_NR_binding_hRARa_up
ERF_TR_binding_hSLC35B3_dn
ERF_ENZ_hNTRK1_dn
ERF_ENZ_hPDE4A_dn
ERF_ENZ_rACFSK_Antagonist
ERF_ENZ_hDUSP3_dn
ERF_ENZ_hPKD2_dn
ERF_ENZ_hPRKAA1_dn
ERF_ADME_hCYP2C19_CEC_dn
ERF_ADME_hCYP2E1_dn
CCTE_Deisenroth_DEVTOX_RUES2-GLR_Endo_Sox17_up
ATG_zfPPARa_EcoTox2_up
NVS_ENZ_hCASP3
NVS_GPCR_rNTS
BSK_KF3CT_uPA_up
NVS_ENZ_hNEK2
NVS_ENZ_hPKA
NVS_ENZ_hRAF1
BSK_IMphg_IL1a_up
BSK_hDFCGF_ICAM1_up
BSK_hDFCGF_MCP1_up
BSK_hDFCGF_MIG_up
CCTE_Shafer_MEA_dev_network_spike_peak_up
BSK_BE3C_tPA_up
ERF_ENZ_hELANE_dn
ERF_ENZ_hFYN_dn
ERF_GPCR_binding_hADORA2A_up
ERF_GPCR_binding_hADRB2_dn
ERF_GPCR_binding_hCCKBR_up
ERF_GPCR_binding_hCYSLTR1_up
ERF_GPCR_binding_hDRD1_dn
ERF_GPCR_binding_hHTR5A_up
ERF_GPCR_binding_hHTR6_up
ERF_GPCR_binding_hHTR7_up
ERF_GPCR_binding_hNTSR1_up
ERF_GPCR_binding_hOPRD1_up
ERF_GPCR_binding_hOPRL1_up
ERF_GPCR_binding_hOPRM1_up
ERF_GPCR_binding_rPY2_up
ERF_IC_binding_rCACNA1C_Diltiazem_dn
ERF_IC_binding_rKCNJ1_dn
ERF_LGIC_binding_rGRIK1_dn
ERF_TR_binding_hSLC6A2_dn
ERF_TR_binding_hSLC6A3_dn
ERF_ENZ_hABL1_dn
ERF_ENZ_hCSF1R_dn
ERF_ENZ_hDYRK1A_dn
ERF_ENZ_hEPHA1_dn
ERF_ENZ_hFLT4_dn
ERF_ENZ_hGSK3b_dn
ERF_ENZ_hJAK2_dn
ERF_ENZ_hKDR_dn
ERF_ENZ_hLYN_dn
ERF_ENZ_hMSK1_dn
ERF_ENZ_hPDE10A_dn
ERF_GPCR_binding_hADORA1_up
ERF_GPCR_binding_hADRA1A_dn
ERF_GPCR_binding_hDRD2_dn
ERF_GPCR_binding_hHRH1_dn
ERF_GPCR_binding_rGHB_dn
ERF_MP_binding_hTSPO_dn
ERF_NR_binding_hGR_up
ERF_TR_binding_hSLC6A4_dn
ERF_ENZ_hMAPK11_dn
ERF_ENZ_hPTPN11_dn
ERF_ENZ_hBTK_dn
ERF_ENZ_hCHK1_dn
ERF_ENZ_hCSNK1A1_dn
ERF_ENZ_hCSNK1D_dn
ERF_ENZ_hCSNK2A1_dn
ERF_ENZ_hMAPKAPK5_dn
ERF_ENZ_hPRKACA_dn
ERF_ENZ_hPTPRF_dn
ERF_ENZ_hPTPRM_dn
ERF_GPCR_binding_hADRA2C_dn
ERF_GPCR_binding_hADRB1_dn
ERF_GPCR_binding_hAGTR2_up
ERF_GPCR_binding_hCCKAR_dn
ERF_GPCR_binding_hDRD4_dn
ERF_GPCR_binding_hTACR2_dn
ERF_TR_binding_rSLC18A2_dn
ERF_TR_binding_rTSPO_dn
ERF_ADME_hCYP2B6_dn
ERF_ADME_hCYP2C19_Omeprazole_dn
ERF_ADME_hCYP2C9_dn
BSK_BF4T_MMP9_up
BSK_BE3C_MMP9_up
BSK_BT_Bcell_Proliferation_up
LTEA_HepaRG_CAT_up
CCTE_Shafer_MEA_dev_network_spike_number_up
BSK_IMphg_CD69_up
TOX21_TRB_COA_Agonist_Followup_ratio
LTEA_HepaRG_JUN_dn
CEETOX_H295R_ESTRADIOL_noMTC_up
CEETOX_H295R_ESTRONE_noMTC_up
CCTE_Shafer_MEA_dev_network_spike_duration_std_up
NVS_ADME_rCYP1A1
ERF_IC_binding_rCACNA1C_Dihydropyridine_dn
ERF_ENZ_hCHLE_dn
ERF_ENZ_hCYP19A1_dn
ERF_GPCR_binding_hTACR1_up
ERF_ENZ_hPTGS2_dn
LTEA_HepaRG_CYP7A1_up
ERFPL_NR_binding_hPPARG_up
TOX21_PR_BLA_Followup_Antagonist_viability
APR_HepG2_NuclearSize_24h_up
VALA_TUBIPS_Antagonist_CellCount_dn
CLD_GSTA2_24hr
LTEA_HepaRG_SLC10A1_up
ERF_GPCR_binding_hCHRM5_dn
ERF_GPCR_binding_hHTR1A_up
ERF_IC_binding_rSCN1A_dn
ERF_LGIC_binding_rGRIA1_dn
ERF_ENZ_hEGFR_dn
ERF_ENZ_hFLT1_dn
ERF_ENZ_hIRAK4_dn
ERF_ENZ_hMAOB_dn
ERF_ENZ_hRAF1
ERF_ENZ_hSRC_dn
ERF_ENZ_hSYK_dn
ERF_NR_binding_hPGR_up
ERF_ENZ_hPTPRB_dn
ERF_GPCR_binding_hAGTR1_up
ERF_GPCR_binding_hLTB4R_up
ERF_LGIC_binding_rGRIN1_dn
ERF_ADME_hCYP3A4_dn
NVS_ENZ_hJNK2
LTEA_HepaRG_MMP10_dn
NVS_ENZ_hLynA
CCTE_Harrill_HTTr_Viability_DMEM_6hr
CCTE_Harrill_HTTr_Apoptosis_DMEM_6hr
CCTE_Harrill_HTTr_Apoptosis_PRF_DMEM_6hr
CCTE_Harrill_HTTr_Apoptosis_PRF_DMEM_12hr
NVS_GPCR_rGABBR
IUF_NPC2a_radial_glia_migration_72hr_up
IUF_NPC2-5_cell_number_120hr_up
BSK_BE3C_uPA_up
CCTE_Simmons_MITO_max_resp_rate_OCR_up
NVS_IC_rKCaCh
BSK_hDFCGF_ITAC_up
CLD_SLCO1B1_48hr
ATG_zfAR_XSP2_up
BSK_MyoF_PAI1_up
NVS_GPCR_rGHB
NVS_GPCR_hC5a
BSK_MyoF_CollagenIII_up
CLD_GSTA2_6hr
CCTE_Shafer_MEA_dev_per_burst_interspike_interval_up
BSK_BE3C_TGFb1_up
CCTE_Shafer_MEA_dev_mutual_information_norm_up
CCTE_Shafer_MEA_dev_spike_duration_mean_up
APR_HepG2_MicrotubuleCSK_1h_dn
TOX21_TRA_COA_Antagonist_Followup_ratio
BSK_LPS_VCAM1_up
BSK_LPS_MCSF_up
NVS_ENZ_hAKT3
NVS_ENZ_hCASP8
NVS_ADME_rCYP1A2
CEETOX_H295R_TESTO_noMTC_up
NVS_LGIC_rGlyRStrySens
CLD_CYP2C19_24hr
TOX21_LUC_Biochem
ATG_MR_TRANS2_up
ATG_PR_TRANS2_up
ATG_ERb_TRANS2_up
ATG_GPCR_ADRA1A_TRANS_up
ATG_GPCR_LPAR4_TRANS_up
ATG_GPCR_MC2R_TRANS_up
NVS_ENZ_hPTPN14
BSK_3C_MIG_up
BSK_3C_VCAM1_up
BSK_4H_MCP1_up
BSK_4H_VCAM1_up
BSK_BE3C_IP10_up
BSK_BE3C_MIG_up
BSK_BE3C_SRB_up
BSK_CASM3C_SRB_up
BSK_hDFCGF_IL8_up
BSK_KF3CT_SRB_up
BSK_LPS_SRB_up
BSK_SAg_MIG_up
BSK_SAg_Proliferation_up
BSK_SAg_SRB_up
CCTE_Harrill_HTTr_CellCount_MCF7_DMEM_6hr
LTEA_HepaRG_BAX_dn
NVS_OR_hFKBP12
APR_HepG2_CellLoss_24h_up
APR_HepG2_MitoMembPot_24h_up
APR_HepG2_P-H2AX_24h_dn
APR_HepG2_CellLoss_72h_up
APR_HepG2_P-H2AX_72h_dn
BSK_BT_sIgG_up
BSK_BT_xIL17A_up
BSK_BT_xIL2_up
BSK_MyoF_ACTA1_up
BSK_MyoF_VCAM1_up
BSK_MyoF_SRB_up
CCTE_Shafer_MEA_acute_interburst_interval_mean_dn
LTEA_HepaRG_SLC22A6_dn
LTEA_HepaRG_SLC22A6_up
LTEA_HepaRG_MMP1_dn
LTEA_HepaRG_CYP24A1_1_dn
NVS_ENZ_hEphB2
NVS_ENZ_hIGF1R
UKN5_HCS_SBAD2_neurite_outgrowth_up
UKN5_HCS_SBAD2_cell_viability_up
UKN2_HCS_IMR90_neural_migration_up
UKN2_HCS_IMR90_cell_viability_up
UKN4_HCS_LUHMES_neurite_outgrowth_up
UKN4_HCS_LUHMES_cell_viability_up
CCTE_Deisenroth_DEVTOX_RUES2-GLR_Endo_CellCount_up
APR_HepG2_CellCycleArrest_1h_up
APR_HepG2_CellLoss_1h_up
APR_HepG2_MitoMass_1h_up
APR_HepG2_MitoMembPot_1h_up
APR_HepG2_MitoticArrest_1h_dn
APR_HepG2_NuclearSize_1h_up
APR_HepG2_P-H2AX_1h_dn
APR_HepG2_p53Act_1h_dn
APR_HepG2_StressKinase_1h_dn
CLD_CYP2C9_24hr
CLD_CYP2C19_48hr
STM_H9_OrnithineISnorm_perc_up
CCTE_Shafer_MEA_dev_firing_rate_mean_up
CCTE_Shafer_MEA_dev_active_electrodes_number_up
NVS_GPCR_rCRF
NVS_ENZ_hEphB1
VALA_TUBHUV_Antagonist_CellCount_dn
BSK_BE3C_ICAM1_up
BSK_CASM3C_PAI1_up
BSK_KF3CT_IL8_up
BSK_KF3CT_MIG_up
BSK_BE3C_EGFR_up
BSK_KF3CT_PAI1_up
CEETOX_H295R_11DCORT_noMTC_up
CEETOX_H295R_OHPREG_noMTC_up
CEETOX_H295R_ANDR_noMTC_up
CEETOX_H295R_CORTIC_noMTC_up
CEETOX_H295R_CORTISOL_noMTC_up
IUF_NPC1a_proliferation_BrdU_72hr_up
IUF_NPC1_viability_72hr_up
IUF_NPC4_neurite_length_120hr_up
IUF_NPC4_neurite_area_120hr_up
IUF_NPC2-5_viability_120hr_up
NVS_ENZ_hAbl
NVS_ENZ_hPKCz
TAMU_PeakParms_SingleDonor1434_Chronotropy_Negative
NVS_IC_rCaChN
NVS_ENZ_hLck
NVS_TR_rAdoT
NVS_IC_rKAR
NVS_ENZ_hMAPK11
NVS_NR_hCAR_Agonist
NVS_ENZ_hPPM1A
NVS_ENZ_hPAK2
ATG_rtGR_EcoTox2_up
ATG_jmGR_EcoTox2_up
ATG_zfGR_EcoTox2_up
ATG_frPPARg_EcoTox2_up
ATG_rtPPARg_EcoTox2_up
ATG_zfER1_EcoTox2_up
ATG_hAR_EcoTox2_up
ATG_zfAR_EcoTox2_up
BSK_BF4T_VCAM1_up
BSK_BF4T_Keratin818_up
BSK_BF4T_MMP1_up
BSK_IMphg_IL10_up
BSK_IMphg_SRB.Mphg_up
BSK_BF4T_Eotaxin3_up
BSK_BF4T_ICAM1_up
BSK_BF4T_CD90_up
BSK_BF4T_IL1a_up
BSK_BF4T_PAI1_up
BSK_BF4T_SRB_up
BSK_BF4T_uPA_up
BSK_IMphg_MCP1_up
BSK_IMphg_VCAM1_up
BSK_IMphg_CD40_up
BSK_IMphg_MCSF_up
BSK_IMphg_SRB_up
NVS_ENZ_hPKD2
ERF_ENZ_hAKT2_dn
NVS_ENZ_hIRAK4
NVS_ENZ_hCHK1
ERF_ENZ_hMAOA_dn
ERF_GPCR_binding_hVIPR1_up
ERF_IC_binding_rKCNN1_dn
ERF_ENZ_hMAPK1_dn
ERF_ENZ_rACFSK_Agonist
ERF_GPCR_binding_hOXTR_up
ERF_LGIC_binding_hGABRA1_up
ERF_GPCR_binding_hAVPR1A_up
ERF_GPCR_binding_hBDKRB2_up
ERF_GPCR_binding_hNPY1R_up
ERF_GPCR_binding_hNPY2R_up
ERF_ENZ_bPDE1_dn
ERF_ENZ_hPRKCZ_dn
ERF_NR_binding_hFXR_Antagonist
ERF_ENZ_hAKT3_dn
ERF_ENZ_hEPHA2_dn
ERF_ENZ_hMAPKAPK2_dn
ERF_ENZ_hNEK2_dn
ERF_ENZ_hSGK1_dn
ERF_NR_binding_hPPARA_up
ERF_NR_binding_hPPARG_up
ERF_ENZ_hAURKA_dn
ERF_ENZ_hCDK2_dn
ERF_ENZ_hEPHB2_dn
ERF_ENZ_hFGFR1_dn
ERF_ENZ_hFGFR3_dn
ERF_ENZ_hLCK_dn
ERF_ENZ_hMARK1_dn
ERF_ENZ_hMET_dn
ERF_ENZ_hMMP3_dn
ERF_ENZ_hMMP9_dn
ERF_ENZ_hPAK4_dn
ERF_ENZ_hROCK1_dn
ERF_ENZ_hZAP70_dn
ERF_GPCR_binding_gANPA_dn
ERF_NR_hTHRA_Agonist
NVS_ENZ_hLynB
ERF_NR_binding_rI2_dn
ERF_ENZ_hSIRT3_dn
ERF_ADME_hCYP2A6_dn
ERF_ENZ_hHDAC6_dn
ATG_NUR77_TRANS2_up
ATG_GCNF_TRANS2_up
ATG_COUP_TF2_TRANS2_up
ATG_PNR_TRANS2_up
ATG_LRH1_TRANS2_up
ATG_Rev_ERB_A_TRANS2_up
ATG_HNF4g_TRANS2_up
ATG_ERRb_TRANS2_up
ATG_COUP_TF1_TRANS2_up
ATG_NOR1_TRANS2_up
ATG_TR4_TRANS2_up
ATG_DAX1_TRANS2_up
ATG_Rev_ERB_B_TRANS2_up
ATG_RORa_TRANS2_up
ATG_RXRg_TRANS2_up
ATG_SF_1_TRANS2_up
ATG_SHP_TRANS2_up
ATG_TLX_TRANS2_up
ATG_THRb_TRANS2_up
ATG_EAR2_TRANS2_up
ATG_TR2_TRANS2_up
ATG_GPCR_ADORA2A_TRANS_up
ATG_GPCR_ADORA2B_TRANS_up
ATG_GPCR_ADRA2B_TRANS_up
ATG_GPCR_ADRB2_TRANS_up
ATG_GPCR_ADRB3_TRANS_up
ATG_GPCR_CHRM3_TRANS_up
ATG_GPCR_DRD1_TRANS_up
ATG_GPCR_DRD5_TRANS_up
ATG_GPCR_EDNRA_TRANS_up
ATG_GPCR_GCGR_TRANS_up
ATG_GPCR_GPBAR1_TRANS_up
ATG_GPCR_GPR40_TRANS_up
ATG_GPCR_GQ_TRANS_up
ATG_GPCR_GS1_TRANS_up
ATG_GPCR_GS_TRANS_up
ATG_GPCR_HRH1_TRANS_up
ATG_GPCR_HTR6_TRANS_up
ATG_GPCR_HTR7_TRANS_up
ATG_GPCR_MC1R_TRANS_up
ATG_GPCR_MC3R_TRANS_up
ATG_GPCR_MC4R_TRANS_up
ATG_GPCR_PTGDR_TRANS_up
ATG_GPCR_PTGIR_TRANS_up
SEEM3, Exposure Predictions
Rat Acute Oral Toxicity
Draize Eye Irritation/Corrosion Test
Vitrigel
httk, Human Hepatic Intrinsic Clearance
httk, Human Plasma Fraction Unbound
httk, Rat Hepatic Intrinsic Clearance
httk, Rat Plasma Fraction Unbound
DPRA
hCLAT
KeratinoSens
LuSens
mMUSST
U-SENS
SENS-IS
Human Maximization Test
Human Repeat Insult Patch Test
LLNA
Guinea Pig Maximization/Buehler
AR Binding
AR Transactivation-Antagonist
AR Transactivation-Agonist
ER Transactivation-Agonist (STTA Assay)
ER Transactivation-Antagonist (STTA Assay)
ER Transactivation-Agonist (VM7Luc Assay)
ER Transactivation-Antagonist (VM7Luc Assay)
Two year cancer bioassay
NTP Carcinogenicity
IRIS Carcinogenicity
IARC Carcinogenicity
OPP Carcinogenicity
In Vitro Genotoxicity
Report on Carcinogens
In Vivo Genotoxicity
Cancer
DART, Developmental malformation
DART, In life observation
DART, Cholinesterase
DART, Reproductive performance
DART, Offspring survival early
DART, Organ weight
DART, Pathology gross
DART, Offspring survival late
DART, Developmental landmark
DART, Pathology microscopic
DART, Urinalysis
DART, Hematology
DART, Clinical chemistry
Systemic
Developmental
Reproductive
DART
Rat Acute Inhalation Toxicity
Corrositex
Vitrolife-Skin Irritation
EpiSkin Irritation
EpiDerm Irritation
LabCyte EPI-MODEL24 Irritation
EpiSkin Corrosion
SkinEthic Corrosion
LabCyte Corrosion
EpiDerm Corrosion
TER Corrosion
Vitrolife-Skin Corrosion
Uterotrophic-Agonist
Hershberger-Agonist
Hershberger-Antagonist
Four-hour Human Patch Test
Draize Skin Irritation/Corrosion Test
AR Pathway Model, Antagonist
AR Pathway Model, Agonist
ER Pathway Model, Antagonist
ER Pathway Model, Agonist
Rat Acute Dermal Toxicity
Other In Vivo Skin Sensitization
in vitro
Androgen - Gene Expression Regulation
Androgen
Mode of Action
DART - Gene Expression Regulation
DART - Androgen Receptor Modulation
Cancer - KCC8: Receptor Mediated Effects
Endocrine
AcuteTox - Cytotoxicity
Acute Lethality
Cancer - KCC10: Cell Proliferation/Death/Energetics
CardioTox - Endothelial Injury/Coagulation
Cardiotoxicity
Estrogen - Gene Expression Regulation
Estrogen
DART - Estrogen Receptor Modulation
AcuteTox - Energy Metabolism Process
CardioTox - Cardiomyocyte/Myocardial Injury
AcuteTox - p53 Signaling Pathway
DART - p53 Signaling Pathway
Cancer - KCC2: Genotoxic Effects
Cancer - KCC5: Oxidative Stress
Cancer - KCC4: Epigenetic Alterations
AcuteTox - Oxidative Stress
DART - Oxidative Stress
In Vitro Androgen Assays
Integrated Approach
Integrated Approaches for Androgen Predictions
AR Transactivation
AcuteTox - Neuronal Transmission
DART - Neuronal Development
DART - Neuronal Transmission
DART - Aryl Hydrocarbon Receptor Modulation
DART - Other Developmental Signaling Transcription Factors
DART - Retinoic Acid Receptor Modulation
DART - Cell Death Process
Other Steroid Hormone - Gene Expression Regulation
Other Steroid Hormone
DART - Retinoid X Receptor Modulation
Thyroid Hormone - Gene Expression Regulation
Thyroid Hormone - Thyroid Hormone Metabolic Process
Thyroid Hormone
DART - Angiogenic Process
CardioTox - Change in Vasoactivity
Cancer - KCC6: Chronic Inflammation
DART - Progesterone Receptor Modulation
DART - Vitamin D Modulation
DART - Growth and Differentiation
AcuteTox - Immune and Inflammatory Response
DART - Extracellular Matrix
CardioTox - Change in Inotropy
Oral
in silico
In Silico Acute Oral Toxicity Predictions
CATMoS, Rat Acute Oral Toxicity
Androgen - Steroid Hormone Metabolism
DART - Steroid Hormone Metabolism
Other Steroid Hormone - Steroid Hormone Metabolism
Estrogen - Steroid Hormone Metabolism
In Silico Estrogen Predictions
In Silico Androgen Predictions
Irritation/Corrosion
Skin Irritation/Corrosion
In Vitro Skin Corrosion Assays
In Vivo
In Vivo DART Assays
Cholinesterase
Clinical Chemistry
Developmental Landmark
Developmental Malformation
Hematology
In Life Observation
Offspring Survival Early
Offspring Survival Late
Organ Weight
Gross Pathology
Microscopic Pathology
Reproductive Performance
Urinalysis
Sensitization
In Vitro Skin Sensitization Assays
Eye Irritation/Corrosion
In Vivo Eye Irritation/Corrosion Assays
Rabbit Draize Eye Irritation/Corrosion Test
In Vivo Skin Irritation/Corrosion Assays
Rabbit Draize Skin Irritation/Corrosion Test
In Vitro Skin Irritation Assays
Integrated Approaches for Estrogen Predictions
In Vitro Estrogen Assays
ER Transactivation
AcuteTox - Steroid Hormone Metabolism
In Vivo Skin Sensitization Assays
In Vivo Androgen Assays
Hershberger Assay
measured
Chemical Properties
ADME Properties
Measured ADME Parameter Values
Human Predictive Patch Test
WOE
Weight of Evidence Characterization
In Vitro Carcinogenicity Assays
In Vivo Carcinogenicity Assays
Murine Local Lymph Node Assay (LLNA)
Structural Properties
DART - Epigenetic Process
CardioTox - Valvular Injury/Proliferation
CardioTox - Change in Action Potential
Environmental Fate Properties
Physicochemical Properties
In Silico ADME Parameter Predictions
OPERA, Caco-2 Permeability
OPERA, HPLC Retention Time
OPERA, Number of Heavy Atoms
OPERA, Number of Hydrogen Bond Acceptors
OPERA, Number of Hydrogen Bond Donors
OPERA, Number of Rings Containing Heteroatoms
OPERA, Number of Rotatable Bonds
OPERA, Soil Adsorption Coefficient of Organic Compounds
OPERA, Whole Body Primary Biotransformation Rate (Half-Life) Constant for Organic Chemicals in Fish
Other In Vivo Skin Sensitization Assays
Dermal
In Vivo Acute Dermal Toxicity Assays
Inhalation
In Vivo Acute Inhalation Toxicity Assays
In Vivo Acute Oral Toxicity Assays
SEEM3 Exposure Predictions
50th Percentile
5th Percentile
95th Percentile
Exposure
AcuteTox - DNA Damage and Repair
Cancer - KCC3: Alteration of DNA Repair/Genomic Stability
NTP Call Dose
In Vivo Estrogen Assays
Uterotrophic Assay
In Vitro Eye Irritation Assays
Vitrigel-Eye Irritancy Test