10967/184 - QDB Compounds

QsarDB Repository

Oja, M.; Maran, U. Quantitative structure-permeability relationships at various pH values for neutral and amphoteric drugs and drug-like compounds. SAR QSAR Environ. Res. 2016, 27, 813-832.

Compound

ID:AMF43
Name:Sulfadiazine
Description:
Labels:Ampholyte
CAS:68-35-9
InChi Code:InChI=1S/C10H10N4O2S/c11-8-2-4-9(5-3-8)17(15,16)14-10-12-6-1-7-13-10/h1-7H,11H2,(H,12,13,14)

Properties

LogPeff_pH3: Logarithmic effective membrane permeability of amphoteric compounds at pH 3 [log(cm/s)]

ValueSource or prediction
-7.37

experimental value

-7

Eq.11: QSAR model for membrane permeability of amphoteric compounds at pH 3 (Training set)

LogPeff_pH5: Logarithmic effective membrane permeability of amphoteric compounds at pH 5 [log(cm/s)]

ValueSource or prediction
-7.34

experimental value

-7.38

Eq.12: QSAR model for membrane permeability of amphoteric compounds at pH 5 (Training set)

LogPeff_pH7.4: Logarithmic effective membrane permeability of amphoteric compounds at pH 7.4 [log(cm/s)]

ValueSource or prediction
-7.39

experimental value

-7.47

Eq.13: QSAR model for membrane permeability of amphoteric compounds at pH 7.4 (Training set)

LogPeff_pH9: Logarithmic effective membrane permeability of amphoteric compounds at pH 9 [log(cm/s)]

ValueSource or prediction
-7.4

experimental value

-7.5

Eq.14: QSAR model for membrane permeability of amphoteric compounds at pH 9 (Validation set)

LogPeff_highest: Highest logarithmic effective membrane permeability for pH range 3 to 9 of amphoteric compounds [log(cm/s)]

ValueSource or prediction
-7.34

experimental value

-7.2

Eq.15: QSAR model for highest membrane permeability of amphoteric compounds (Training set)

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