BBP-19572 - PLK4 | AI Drug Discovery Platform

2D Structure

C17H15F3N6O | Exact mass: 376.1259

Key Metrics

-6.8

Vina (kcal/mol)

#2593

Docking Rank

Hinge Binder

TPSA

376

HBD

2.9

SlogP

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PROTEIN

Cartoon / Ribbon

Pocket Surface

Protein Style

Protein Color

BINDING SITE

Residue Sticks

Radius: 5Å

Residue Labels

Co-crystal Ligand

INTERACTIONS

▬ H-Bonds

▬ Hydrophobic

LIGAND

Ligand Surface

Ligand Style

Ligand Color

BACKGROUND

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PLK4 Docking Result

-6.76

kcal/mol (molecular docking)

Docking Rank	#2593 of 1,249
Consensus Score	0.1703
Receptor	PLK4 (PDB: 4YUR)
Selective	No

Selectivity Profile

ADMET Profile

BBB (BOILED-Egg)	BBB+ (penetrant)
ADMET Status	Pass (no hard fails)
hERG Risk	pIC50 0.8 (low risk)
AMES Mutagenicity	Negative
Efflux Risk (P-gp)	Non-substrate — low efflux risk. ER predicted <2.0
Intestinal Absorption	High
3D PSA	56.9 A² (CNS-favorable)
MDCK Perm (predicted)	-4.70 log Papp (good)
CYP3A4 Inhibitor	Inhibitor
Hepatotoxicity	Positive

Flags: ["hepatotox_positive", "CYP3A4_inhibitor"]

CNS Drug-Likeness

Physicochemical Properties

Molecular Weight	376.34 Da
TPSA	79.0 A^2
HBD	2
HBA	6
SlogP	2.94
Fsp3	0.235
Rotatable Bonds	5
Rings	4 (3 aromatic)
QED	0.713
SA Score	2.71 (1=easy, 10=hard)
CNS MPO	2.90 / 4.0
Formula	C17H15F3N6O
Exact Mass	376.1259

Classification

Scaffold (Murcko)	C1CCC(CC2CC(C3CCCC(CC4CCCC4)C3)C2)CC1
Source Versions	v14
Best Source Score	0.6646
Best Source Rank	#459
Hinge Binder	Aminopyrazole DAD
InChIKey	USVHQCVTLQHLSY-UHFFFAOYSA-N
Filter Pass	Yes

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.

BBP-19572 Yellow