Known targets — ChEMBL curated mechanism
ABL1ACEACHEACVR1ADRA1AADRA1BADRA1DADRA2AADRA2BADRA2CADRB1ADRB2ADRB3AGTR1ALKAVPR1AAVPR2BCHEBCRCA2CACNA1ACACNA1BCACNA1CCACNA1DCACNA1ECACNA1FCACNA1GCACNA1HCACNA1ICACNA1SCACNA2D1CACNA2D2CACNA2D3CACNA2D4CACNB1CACNB2CACNB3CACNB4CACNG1CACNG2CACNG3CACNG4CACNG5CACNG6CACNG7CACNG8CALCRLCASRCCR5CDK4CDK6CFBCHRM1CHRM2CHRM3CHRM4CHRM5CHRNA1CHRNA3CHRNA7CHRNB1CHRNB4CHRNDCHRNECHRNGCOXFA4COXFA4L2CRBNCSF1RCUL4ACYP19A1DDB1DPP4DRD1DRD2DRD3DRD4EDNRAEGFREML4ERBB2ERBB4ESR1ESR2FGFR1FGFR3FLT1FLT3FLT4GAAGABRA1GABRA2GABRA3GABRA4GABRA5GABRA6GABRB1GABRB2GABRB3GABRDGABREGABRG1GABRG2GABRG3GABRPGABRQGHSRGLAGNRHRGPD2GRIN1GRIN2AGRIN2BGRIN2CGRIN2DGRIN3AGRIN3BGSTP1HCN4HCRTR1HCRTR2HDAC1HDAC10HDAC11HDAC2HDAC3HDAC4HDAC5HDAC6HDAC7HDAC8HDAC9HRH1HRH2HRH3HSD11B1HSP90AA1HSP90AB1HTR1AHTR1BHTR1DHTR1EHTR1FHTR2AHTR2BHTR2CHTR3AHTR3BHTR3CHTR3DHTR3EHTR4HTR5AHTR6HTR7IMPDH1IMPDH2ITGA2BITGB3ITKJAK1JAK2KCNA1KCNA10KCNA2KCNA3KCNA4KCNA5KCNA6KCNA7KCNB1KCNB2KCNC1KCNC2KCNC3KCNC4KCND1KCND2KCND3KCNF1KCNG1KCNG2KCNG3KCNG4KCNH1KCNH2KCNH3KCNH4KCNH5KCNH6KCNH7KCNH8KCNJ2KCNJ3KCNJ5KCNK3KCNK9KCNQ1KCNQ2KCNQ3KCNQ4KCNQ5KCNS1KCNS2KCNS3KCNV1KCNV2KDRKITKLKB1LCKMMAOAMAOBMAPK14METMMP1MMP13MMP7MMP8MT-ND1MT-ND2MT-ND3MT-ND4MT-ND4LMT-ND5MT-ND6NDUFA1NDUFA10NDUFA11NDUFA12NDUFA13NDUFA2NDUFA3NDUFA5NDUFA6NDUFA7NDUFA8NDUFA9NDUFAB1NDUFAF1NDUFAF2NDUFAF3NDUFAF4NDUFB1NDUFB10NDUFB11NDUFB2NDUFB3NDUFB4NDUFB5NDUFB6NDUFB7NDUFB8NDUFB9NDUFC1NDUFC2NDUFS1NDUFS2NDUFS3NDUFS4NDUFS5NDUFS6NDUFS7NDUFS8NDUFV1NDUFV2NDUFV3NR3C1NS5ANTRK1NTRK2NTRK3ODC1OPRD1OPRK1OPRM1P2RY12PAHPARP1PDE3APDE3BPDE4APDE4BPDE4CPDE4DPDE5APDE7APDE7BPDE8APDE8BPDGFRAPDGFRBPIK3CAPIK3CDPNPPOLA1POLA2POLD1POLD2POLD3POLD4POLEPOLE2POLE3PPARGPRIM1PRIM2PRKCAPRKCBPRKCDPRKCEPRKCGPRKCHPRKCIPRKCQPRKCZPRKD1PRKD3PTGS1PTGS2RBX1RENRETROCK1ROCK2RPE65RRM1RRM2RRM2BS1PR1S1PR2S1PR3S1PR4S1PR5SCN10ASCN11ASCN1ASCN2ASCN3ASCN4ASCN5ASCN7ASCN8ASCN9ASCNN1ASCNN1BSCNN1GSIGMAR1SLC18A2SLC6A1SLC6A2SLC6A3SLC6A4SLC9A3SRCTACR1TOP1TOP2ATOP2BTTRTYMPdacAdacBdacCembAfolAftsIgyrAgyrBmrcAmrcBmrdAparCparEpolrplArplBrplCrplDrplErplFrplIrplJrplKrplLrplMrplNrplOrplPrplQrplRrplSrplTrplUrplVrplWrplXrplYrpmArpmBrpmCrpmDrpmErpmE2rpmFrpmGrpmG1rpmG2rpmG3rpmHrpmIrpmJrpsArpsBrpsCrpsDrpsErpsFrpsGrpsHrpsIrpsJrpsKrpsLrpsMrpsNrpsOrpsPrpsQrpsRrpsSrpsTrpsUykgMykgO
The experimentally established mechanism targets of Hydrochloric Acid. The predicted profile below is derived independently by chemical similarity — agreement is a validation signal, a miss is honest.
Similar compounds — the chemically nearest patent molecules
Nearest neighbours by Morgan-fingerprint cosine across the patent-compound collection, with each neighbour's top predicted target and the predicted targets it shares with this molecule.
| Compound | similarity | top predicted | shared targets | |
|---|---|---|---|---|
| SCHEMBL139430 | 0.97 | — | — | |
| SCHEMBL7108385 | 0.85 | HDAC8 (0.76) | — | |
| SCHEMBL140223 | 0.81 | HDAC8 (0.71) | — | |
| Phenylacetylene SCHEMBL20602216 | 0.76 | HDAC8 (0.64) | — | |
| SCHEMBL142294 | 0.76 | HDAC8 (0.62) | — | |
| SCHEMBL143402 | 0.76 | HDAC8 (0.62) | — | |
| SCHEMBL142295 | 0.76 | HDAC8 (0.62) | — | |
| SCHEMBL143403 | 0.76 | HDAC8 (0.62) | — | |
| SCHEMBL15042764 | 0.76 | HDAC8 (0.62) | — | |
| SCHEMBL28871 | 0.73 | HDAC8 (0.59) | — |
Similarity is cosine over the 2,048-bit Morgan fingerprint (≈ Tanimoto). Identical fingerprints score 1.00.
Patent provenance — the patents this molecule appears in, and who filed them
Claimed or disclosed in 177 patents — showing the first 20. claimed = in the patent's claims; disclosed = body only.
| Patent | Title | Assignee | Published | Priority | Filing | Country | Status |
|---|---|---|---|---|---|---|---|
| CN-114315701-B | Bipyridine ligand containing AIE and ACQ groups, amphiphilic diamond-shaped supramolecular metal ring and application | 杭州师范大学 | 2023-11-17 | — | — | CN | claimed |
| WO-2023134120-A1 | BIPYRIDINE LIGAND AND AMPHIPHILIC RHOMBIC SUPRAMOLECULAR METAL RING CONTAINING AIE AND ACQ GROUPS AND APPLICATION | 杭州师范大学 | 2023-07-20 | — | — | WO | claimed |
| CN-114315701-A | Bipyridine ligand containing AIE and ACQ groups, amphiphilic diamond supramolecular metal ring and application | 杭州师范大学 | 2022-04-12 | — | — | CN | claimed |
| CN-111423365-B | Bifunctional group pillar aromatic hydrocarbon derivative ligand, metal organic cage and preparation method | 华东师范大学 | 2020-11-20 | — | — | CN | claimed |
| CN-111423365-A | Bifunctional group pillar aromatic hydrocarbon derivative ligand, metal organic cage and preparation method | 华东师范大学 | 2020-07-17 | — | — | CN | claimed |
| CN-105294584-A | 1-substituted phenyl-1H-1,2,3-triazole compound as well as preparation method and application thereof | UNIV CHINA MEDICAL | 2016-02-03 | — | — | CN | claimed |
| CN-103127954-A | Preparation method of multi-layer composite film capable of catalyzing C-C key coupling reaction | UNIV NINGBO | 2013-06-05 | — | — | CN | claimed |
| CN-103122243-A | Platinum compound fluorescent material and preparation method thereof | UNIV NINGBO | 2013-05-29 | — | — | CN | claimed |
| CN-103113878-A | Alkynyl pyridine compound fluorescent material containing Pt-Pt bonds and preparation method thereof | UNIV NINGBO | 2013-05-22 | — | — | CN | claimed |
| EP-1747059-A1 | PERVAPORATION COMPOSITE MEMBRANES | McMaster University (CA) | 2007-01-31 | — | — | EP | claimed |
| US-20060000778-A1 | high-performance membrane designed for the selective removal of a polar fluid (water) from less polar fluids (organic solvents), by a pervaporation using a composite membrane contaiing ultrafiltration membrane as support ( e.g. cellulose acetate) and a crosslinked copolymer of anionic, cationic monomers | MCMASTER UNIVERSITY (CA) | 2006-01-05 | — | — | US | claimed |
| WO-2005102503-A1 | PERVAPORATION COMPOSITE MEMBRANES | MCMASTER UNIVERSITY (CA) | 2005-11-03 | — | — | WO | claimed |
| CN-116507617-B | 1- (2- (4-Cyclopropyl-1H-1, 2, 3-triazol-1-yl) acetyl) -4-hydroxypyrrolidine-2-carboxamide derivatives as VHL inhibitors | 基因泰克公司 | 2026-05-22 | — | — | CN | disclosed |
| CN-121911251-B | Classifying and screening system based on staggered stacked metal ring films, and preparation method and application thereof | 天津工业大学 | 2026-05-19 | — | — | CN | disclosed |
| EP-4688161-A1 | IL4I1 INHIBITORS AND METHODS OF USE | Merck Sharp & Dohme LLC (US) | 2026-02-11 | — | — | EP | disclosed |
| US-12435051-B2 | Dual modulator of mGluR5 and 5-HT2A receptor, and use thereof | VIVOZON, INC. (KR) | 2025-10-07 | — | — | US | disclosed |
| WO-2005085233-A1 | SYNTHETIC NANOPORES FOR DNA SEQUENCING | THE GOVERNMENT OF THE UNITED STATES OF AMERICA AS REPRESENTED BY THESECRETARY OF THE NAVY NAVAL RESEARCH LABORATORY (US) | 2005-09-15 | — | — | WO | disclosed |
| US-20050192438-A1 | Synthetic nanopores for DNA sequencing | THE GOVERNMENT OF THE UNITED STATES OF AMERICA, AS REPRESENTED BY THE SECRETARY OF THE NAVY | 2005-09-01 | — | — | US | disclosed |
| WO-2004083235-A2 | TIE-2 MODULATORS AND METHODS OF USE | EXELIXIS INC. (US) | 2004-09-30 | — | — | WO | disclosed |
| US-20040138467-A1 | Aromatic and aromatic/heteroaromatic molecular structures with controllable electron conducting properties | E.I. DU PONT DE NEMOURS AND COMPANY | 2004-07-15 | — | — | US | disclosed |