EGF-05880 Red

COc1ccc2ccc(S(C)(=O)=O)nc2c1N=c1cnn(-c2ccccc2Cl)c(=N)[nH]1
0.287
Platform Score
2D Structure
EGF-05880
C20H17ClN6O3S | Exact mass: 456.0771
Key Metrics
N/A
Vina (kcal/mol)
#-
Docking Rank
0
Hinge Binder
126
TPSA
457
MW
2
HBD
2.5
SlogP
Display Controls
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EGFR Docking Result
N/A
kcal/mol (molecular docking)
Docking Rank#- of 1,249
Consensus Score-
ReceptorEGFR (PDB: 1M17)
Selective No
Selectivity Profile
ADMET Profile
BBB (BOILED-Egg) BBB- (non-penetrant)
ADMET Status Pass (no hard fails)
CNS Drug-Likeness
Physicochemical Properties
Molecular Weight456.90 Da
TPSA126.1 A^2
HBD2
HBA8
SlogP2.53
Fsp30.100
Rotatable Bonds4
Rings4 (4 aromatic)
QED0.488
SA Score3.36 (1=easy, 10=hard)
CNS MPO- / 4.0
FormulaC20H17ClN6O3S
Exact Mass456.0771
Classification
Scaffold (Murcko)-
Source Versions-
Best Source Score-
Best Source Rank#-
Hinge Binder Not present
InChIKey-
Filter PassYes
Retrosynthetic Analysis

Retrosynthetic analysis not yet run for this compound.

About

Retrosynthetic analysis decomposes the target molecule into purchasable building blocks using learned reaction templates.

A feasible route means the molecule can theoretically be synthesized from commercially available starting materials.

Min steps indicates the shortest synthesis route found.

Matched Molecular Pair Analysis

Find structural transformations that improve BBB penetration by analyzing pairs of similar molecules with different predictions.

About MMP

Matched Molecular Pairs (MMPs) are pairs of molecules that differ by a single structural transformation.

By comparing BBB predictions across many such pairs, we identify systematic SAR rules — specific modifications that consistently improve or reduce BBB penetration.

Suggestions are based on transformations observed in similar molecules within the compound library.

Patent Landscape Screening

Screen this compound against global patent databases (SureChEMBL + PubChem).

About IP Screening

Searches performed:

  • Exact structure match (SureChEMBL)
  • Substructure / Markush coverage
  • Similarity search (70% Tanimoto)
  • PubChem patent annotations

Risk levels:

  • CRITICAL Exact match in active patent
  • HIGH Substructure / Markush hit
  • MODERATE High similarity (>85%)
  • LOW Moderate similarity
  • CLEAR No hits found
Disclaimer: This is a computational screening tool only. It does not constitute legal advice. 18-month publication lag means recent filings may not appear. Consult qualified IP counsel for formal FTO opinions.