Query Molecule Profile Results
Molecule: 6
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Bioactive Database Search Results
| Bioactive | TanSim | Source | ActClass | Action | LitRef | Annotations |
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1.000 | CBNK2005 | bioactive | Known Drug - Indications/Usage: coronary vasodilator (2) |
NA | CBNKID: 1158 MOLNAME: perhexilline SOLUBILITY: DMSO VENDOR: MicroSource 1503227 NINDS 1503227 |
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1.000 | CMCR2004 | Vasodilator (coronary) | Vasodilator (coronary) | (2) Hudak et al., J. Pharmacol. Exp. Ther., 1970, 173, 371. | ChemicalName: PERHEXILENE LogP: 7.54 CommericalSource: Merrell Dow (Pexid) pKa: NA CAS: 6621-47-2 |
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1.000 | MCSR2004 | Bioactive Standard | Therap cat: coronary vasodilator | NULL | MOLNAME: PERHEXILLINE MALEATE SN: 538977658 ID: 01503227 |
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1.000 | MCSRBASC | Bioactive | coronary vasodilator | NULL | MOLNAME: PERHEXILINE MALEATE ID: 01503227 CAS: 6724-53-4, 6621-47-2 [perhexiline] |
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0.435 | MDDR2004 | Calcium Regulator | NULL | NULL | ChemicalName: 145992 TestingPhase: Biological Testing CommericalSource: Norwich Eaton PatentNumber: AU 8782694;19880623 EP 274158;19880713 JP 88239291;19881005 CAS: NA |
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0.410 | MDDR2004 | Antineoplastic | NULL | NULL | ChemicalName: 150379 TestingPhase: Biological Testing CommericalSource: Shionogi PatentNumber: JP 88041488;19880222 CAS: NA |
Toxicity Database Search Results
| ToxicMol | TanSim | Source | ActClass | Action | LitRef | Annotations |
| NO HITS | ||||||
Available Compounds Database Search
| Available | SimTan | Source | Category | SuppID | PlateID | Well | Annotations |
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1.000 | BASC | ScreenEntirePlates | AB-00129887:BATCH-01 | 01820MS | A08 | COMPANY: Bay Area Screening Center INFO: Microsource 96 well plate |
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1.000 | MCSR | CherryPickable | 01503227 | NA | NA | COMPANY: Microsource MOLNAME: PERHEXILLINE MALEATE SN: 538977658 |
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1.000 | SGSA | CherryPickable | R592153 | NA | NA | COMPANY: Sigma SALOR COLLECTION: Screening Set MW: 277.49 PURITY: 95 SHIPWIN: 7 |
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0.410 | SGSA | CherryPickable | R409960 | NA | NA | COMPANY: Sigma SALOR COLLECTION: Screening Set MW: 133.62 PURITY: 95 SHIPWIN: 7 |
ADME Profiler (v1.5) Results
| Probe | ID | ADME Score Reflects the weighted contribution of all the ADME models except BBB; a molecule with a low score is more likely to be orally bioavailable and less toxic | Lip. Viols. | REOS Flags | Int. Perm. Intestinal Permeability Model | ADMET Aq. Sol. | TETKO Aq. Sol. | BBB Model Blood Brain Barrier Penetration Model | Plasma Protein Binding | CYP 2D6 Inh. | Hep Tox | Oprea Viols. | Ghose Viols. | S.F. Flags Suspect Feature Flag |
 |
6 | 2.0 |
High Lipophilicity (AlogP = 5.72)Failed 1 of 4 Rules |
NONE |
Mod. Passive Int. Perm. |
Very Low Solubility:(LogSw =-6.24 mol/L) |
Very Low Solubility:(LogSw =-7.00 mol/L) |
Very High BBB Penetration: (LogBBB =1.41) |
High Plasma Protein Binding (>=95%) |
Unlikely CYP2D6 Inh: (P=0.33) |
Unlikely Hep. Toxin: (P=0.18) |
Failed Oprea H-bond Acceptors (Count = 1)Failed 1 of 4 Rules |
Outside Ghose Optimal AlogP (AlogP = 5.72)Failed 1 of 4 Rules |
NONE |
ADME Model Information
- Lipinski Violations: (1) MW > 500, (2) Num_H_Accs > 10, (3) Num_H_Donors > 5, (4) AlogP > 6; (ref: Lipinski et al, Advanced Drug Delivery Reviews 46, 2001, 3–26)
- REOS Features: Structures deemed inappropriate for HTS; (ref: Rishton, Drug Discovery Today, 2, 9, Sept 1997; M. Hann et al. J. Chem. Inf. Comput. Sci. 39, 1999, 897–902.; Walters et al, Advanced Drug Delivery Reviews 54, 2002, 255–271; consultations with Medicinal Chemists)
- Intestinal Permeability Model (%Abs): (a) 0 = Very Low Absorption; (b) 1 = Low Absorption; (c) 2 = Moderately absorbed; (d) 3 = Well absorbed (>90%); (ref: Egan et al, J. Med. Chem. 2000,43, 3867–3877; Egan, W.J., Lauri, G., Adv. Drug Del. Rev., 54, 273, 2001)
- ADMET Solubility Model (Log mol/L): (a) 0 = Extremely Low Solubility (<-8.0); (b) 1 = Very Low Solubility (-8.0 – -6.0); (c) 2 = Low Solubility (-6.0 – -4.0); (d) 3 = Moderate Solubility (-4.0 – -2.0); (e) 4 = Optimal Solubility (-2.0 – 0.0); (f) 5 = Very Soluble (>0.0); (g) 6 = Undefined; (ref: Cheng, A. and Merz, Jr., K. "Prediction of aqueous solubility of a diverse set of compounds using quantitative structure-property relationships," J. Med. Chem. 2003, 46, 3572–3580).
- TETKO Solubility Model (Log mol/L): (a) 0 = Extremely Low Solubility (<-8.0); (b) 1 = Very Low Solubility (-8.0 – -6.0); (c) 2 = Low Solubility (-6.0 – -4.0); (d) 3 = Moderate Solubility (-4.0 – -2.0), (e) 4 = Optimal Solubility (-2.0 – 0.0); (f) 5 = Very Soluble (>0.0); (ref: Scitegic's Pipeline Pilot model based on Tetko et al.,J Chem Inf. Comput. Sci, 2001, 41, 1488–1493, "Estimation of Aqueous Solubility of Chemical Compounds Using E-State Indices)
- Blood Brain Barrier (BBB) Permation: (a) 0 = Undefined; (b) 1 = Outside Confidence Range; (c) 2 = Low Permation (Blood:Brain > 0.3); (d) 3 = Medium Permation (Blood:Brain 0.3 > 1:1); (e) 4 = High Permeation Brain:Blood 1:1 > 5:1); (f) 5 = Very High Permation (Blood:Brain > 5:1); (ref: Accelrys Proprietary model);
- Plasma Protein Binding (PPB): (a) 0 = <90%; (b) 1 = >=90%, (c) 2 = >95%; (ref: Dixon, S.L. and Merz, K.M.M., Jr. "One-Dimensional Molecular Representations and Similarity Calculations: Methodology and Validation," J. Med. Chem., 2001, 44, 3795–3809.)
- CYP 2D6 Inhibition: (a) 0 = Non-Inhibitor; (b) 1 = Inhibitor; (ref: Dixon, S.L., Villar, H.O., J. Comput. Aided Mol. Design, 13, 533 (1999).; Susnow, R.G., Dixon, SL, "Use of robust classification techniques for the prediction of human cytochrome P450 2D6 inhibition," J. Chem. Inf. Comput. Sci., 2003, 43, 1308–1315)
- Hepatotoxicity: (a) 0 = Not Toxic; (b) 1 = Toxic; (ref: Dixon, SL; Villar, H.O., J. Comput. Aided Mol. Design, 13, 533 (1999); Cheng, A. and Dixon, SL In silico models for the prediction of dose-dependent human hepatotoxicity, J. Comput. Aided Mol. Design, 17, 811–823. (2003));
- Ghose Violations: (1) -0.4 <= AlogP <= 5.6, (2) 160 <= MW <= 480, (3) 40 <= MR <= 130, (4) 20 <= Num_Atoms <= 70; (ref: A.K. Ghose et al, J. Comb. Chem. 1, 1999, 55–67)
- Oprea Violations: (1) Num_H_Donors > 2, (2) 2 <= Num_H_Accs <= 9, (3) 2 <= Num_RBs <= 8, (4) 1 <= Num_Rings <= 4; (ref: Oprea, Journal of Computer-Aided Molecular Design, 14: 251–264, 2000)
- Suspect Substructure Violations: Compounds gleamed from medicinal chemistry literature that are known to be problematic for developing drug candidates