Vitamin K 3 — Mechanism Gap Analysis
HYPOTHESIS_ENGINE_v1.0 · Corpus v20260227-01 · Deterministic graph-traversal
Known Targets
CYP2C19CYP2D6ARCYP2C9ESR1CYTOCHROMETDP1CYP1A2THRBESRRACYP3A4CYP3A7NFE2L2SYKTYROSINE-PROTEINGLI3RATTUSNSD2RORCMUSHISTONE-LYSINENUCLEARTP53ABCB1KCNH2RARAEUCHROMATICDRD3CYP19A1AHRVDRJUNATXN2PMP22CFTRMAPTALDEHYDEPPARDMAOAPTGER2GPR32GAPDHBLMMAOBGSTO1CDC25BPLIN5TSTHBBAOX1ARFGAP1IDO1NQO1PLIN1CDC25ABIRC5TGM2POR
58 known targets mapped from PubChem bioassay data
Pathway Context
Biological oxidations12 targets overlapping
Phase I - Functionalization of compounds11 targets overlapping
Cytochrome P450 - arranged by substrate type9 targets overlapping
Uncovered Pathway Targets
93 totalAADACAHCYALDH1A1ALDH2AOC1ARNTCBR3CES1CES2CYP11B1+83 more…
Genes present in the top pathway union that Vitamin K 3 does not directly modulate.
Top Stack Candidates
Quercetin
score 2,796.578#1 gap-filler · 15 targets covered · evidence score 43.4
CYP1A1CYP1B1CYP2C8HSP90AB1NNMTRXRAAURKBNFKB2NR1I2NR3C1PGRPPARG+3
Luteolin 5,7,3',4'-tetrahydroxy-flavone,
score 2,589.008#2 gap-filler · 12 targets covered · evidence score 40.6
CBR3CYP1A1CYP1B1AURKBNFKB2NR1H2NR1H3PARP1PPARGRELATOP1WRN
535 more candidates · full stack optimisation locked
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BiohacksAI maps biological mechanisms. It does not recommend compounds. Results generated by HYPOTHESIS_ENGINE_v1.0.