Known targets — ChEMBL curated mechanism
ABCC9ABL1ACEACHEACVR1ADORA1ADORA2AADORA2BADORA3ADRA1AADRA1BADRA1DADRA2AADRA2BADRA2CADRB1ADRB2ADRB3AGTR1ALOX5ATP4AATP4BBCRBTKCACNA1ACACNA1BCACNA1CCACNA1DCACNA1ECACNA1FCACNA1GCACNA1HCACNA1ICACNA1SCACNA2D1CACNA2D2CACNA2D3CACNA2D4CACNB1CACNB2CACNB3CACNB4CACNG1CACNG2CACNG3CACNG4CACNG5CACNG6CACNG7CACNG8CALCRLCFBCHRM1CHRM2CHRM3CHRM4CHRM5CHRNA1CHRNB1CHRNDCHRNECHRNGCRBNCUL4ACXCR1CXCR2DDB1DDCDHFRDPP4DRD2DRD3DRD4EGFRERBB2ERBB4ESR1ESR2FDPSFKBP1AFLT1FLT3FLT4GARTGHSRGRIA1GRIA2GRIA3GRIA4GRIK1GRIK2GRIK3GRIK4GRIK5GRIN2AGSK3AGSK3BHDAC1HDAC10HDAC11HDAC2HDAC3HDAC4HDAC5HDAC6HDAC7HDAC8HDAC9HRH1HTR1AHTR1BHTR1DHTR1EHTR1FHTR2AHTR2BHTR2CHTR3AHTR3BHTR3CHTR3DHTR3EHTR4HTR5AHTR6HTR7IDH1IDH2IMPA1ITGA2BITGB3JAK1JAK2JAK3KCNJ11KCNK3KCNK9KDRKITMEN1METMMP1MMP13MMP7MMP8NANOD2NS5bODC1OPG057OPRD1OPRK1OPRM1PPARP1PARP2PDE3APDE3BPDE4APDE4BPDE4CPDE4DPDGFRBPIK3CAPIK3CBPIK3CDPIK3CGPIK3R1PIK3R2PIK3R3PIK3R5PKLRPPARDPPATPTGS1PTGS2RBX1ROCK1ROCK2RRM1RRM2RRM2BSCN10ASCN11ASCN1ASCN2ASCN3ASCN4ASCN5ASCN7ASCN8ASCN9ASCNN1ASCNN1BSCNN1GSIGMAR1SLC10A2SLC5A2SLC6A2SLC6A3SLC6A4SLC9A3SYKTACR1THRATHRBTOP1TUBA1ATUBA1BTUBA1CTUBA3CTUBA3ETUBA4ATUBBTUBB1TUBB2ATUBB2BTUBB3TUBB4ATUBB4BTUBB6TUBB8TYK2TYMSVDRampCblablaT-3blaT-4blaT-5blaT-6blaUOE-1dacAdacBdacCfolAfolPftsIgyrAgyrBileSmecAmrcAmrcBmrdAparCparEpbp2pbp4pbpApbpFrplArplBrplCrplDrplErplFrplIrplJrplKrplLrplMrplNrplOrplPrplQrplRrplSrplTrplUrplVrplWrplXrplYrpmArpmBrpmCrpmDrpmErpmE2rpmFrpmGrpmG1rpmG2rpmG3rpmHrpmIrpmJrpsArpsBrpsCrpsDrpsErpsFrpsGrpsHrpsIrpsJrpsKrpsLrpsMrpsNrpsOrpsPrpsQrpsRrpsSrpsTrpsUthyAykgMykgO
The experimentally established mechanism targets of Propane. 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 | |
|---|---|---|---|---|
| Propane SCHEMBL8755715 | 1.00 | — | — | |
| Propane SCHEMBL7197523 | 1.00 | — | — | |
| Propane SCHEMBL17460062 | 1.00 | ALDH1A1 (0.40) | — | |
| Propane SCHEMBL7198921 | 1.00 | — | — | |
| Propane SCHEMBL7203579 | 1.00 | — | — | |
| Propane SCHEMBL7199013 | 1.00 | — | — | |
| Propane SCHEMBL28191205 | 0.91 | — | — | |
| Propane SCHEMBL4349398 | 0.91 | — | — | |
| Propane SCHEMBL28301367 | 0.91 | — | — | |
| Propane SCHEMBL28232624 | 0.91 | — | — |
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 361 patents — showing the first 20. claimed = in the patent's claims; disclosed = body only.
| Patent | Title | Assignee | Published | Priority | Filing | Country | Status |
|---|---|---|---|---|---|---|---|
| WO-2023109802-A1 | TRICYCLIC FUSED HETEROCYCLIC PDE3/4 DUAL INHIBITOR AND USE THEREOF | 海思科医药集团股份有限公司 | 2023-06-22 | — | — | WO | claimed |
| CN-116237035-A | Composite oxide propane dehydrogenation catalyst and preparation method and application thereof | 万华化学集团电池科技有限公司 | 2023-06-09 | — | — | CN | claimed |
| CN-112479802-B | Generating system and generating method of propane hydrate | 中国石油大学(华东) | 2022-05-27 | — | — | CN | claimed |
| US-20210388254-A1 | APPARATUS AND METHOD FOR PRODUCING HYDROCARBONS | SO3 PLUS, LLC (US) | 2021-12-16 | — | — | US | claimed |
| CN-112479802-A | Generating system and generating method of propane hydrate | 中国石油大学(华东) | 2021-03-12 | — | — | CN | claimed |
| CN-107673583-B | Deep dehydration treatment method for sludge | 同济大学 | 2021-02-05 | — | — | CN | claimed |
| CN-110010954-A | Without cathode lithium metal battery and its manufacturing method | 三星电子株式会社 | 2019-07-12 | — | — | CN | claimed |
| EP-2553001-B1 | POLYIMIDE POWDER AND FILM | KOLON INC (KR) | 2019-05-08 | — | — | EP | claimed |
| CN-109535799-A | Submissive hydrophilic coating for medical device | 柯惠有限合伙公司 | 2019-03-29 | — | — | CN | claimed |
| CN-109415516-A | Superabsorbent polymer and method of making the same | 株式会社LG化学 | 2019-03-01 | — | — | CN | claimed |
| CN-106450313-A | Porous hard-carbon lithium ion battery anode material, preparation method thereof and lithium ion battery | 安徽安达新能源材料有限公司 | 2017-02-22 | — | — | CN | claimed |
| CN-106410269-A | All-solid-state composite polymer electrolyte and preparation method thereof | 中国科学院大学 | 2017-02-15 | — | — | CN | claimed |
| CN-105949633-A | Tire inner liner rubber and preparation method thereof | 德州玲珑轮胎有限公司 | 2016-09-21 | — | — | CN | claimed |
| CN-105870449-A | All-solid-state lithium-air battery composite positive electrode material and all-solid-state lithium-air battery | 中南大学 | 2016-08-17 | — | — | CN | claimed |
| CN-103864243-B | Two-stage sea water desalination method based on hydration and two-stage sea water desalination device based on hydration | UNIV CHANGZHOU | 2015-07-22 | — | — | CN | claimed |
| CN-103864243-A | Two-stage sea water desalination method based on hydration and two-stage sea water desalination device based on hydration | UNIV CHANGZHOU | 2014-06-18 | — | — | CN | claimed |
| EP-2347911-B1 | MANUFACTURE METHOD OF METAL PLATE SUBSTRATE FOR COMPUTER-TO-PLATE INK-JET PRINTING | CHINESE ACAD INST CHEMISTRY (CN) | 2013-05-08 | — | — | EP | claimed |
| US-7900452-B2 | Clathrate ice thermal transport for ocean thermal energy conversion | LOCKHEED MARTIN CORPORATION (US) | 2011-03-08 | — | — | US | claimed |
| US-20080314043-A1 | CLATHRATE ICE THERMAL TRANSPORT FOR OCEAN THERMAL ENERGY CONVERSION | LOCKHEED MARTIN CORPORATION (US) | 2008-12-25 | — | — | US | claimed |
| EP-1277769-B1 | Compositions of silicon containing (meth)acrylic acid ester polymers | KANEKA CORP (JP) | 2004-12-01 | — | — | EP | claimed |