Known targets — ChEMBL curated mechanism
ADRA1AADRA1BADRA1DADRA2AADRA2BADRA2CADRB1ADRB2ADRB3CALCRLCHRM1CHRM2CHRM3F2RMAOAMAOBMAP2K1MAP2K2NTRK1NTRK2NTRK3OPRD1OPRK1OPRM1P2RY12PKLRSCN10ASCN11ASCN1ASCN2ASCN3ASCN4ASCN5ASCN7ASCN8ASCN9ASLC18A2SLC6A2SLC6A3TLR7TLR9TUBA1ATUBA1BTUBA1CTUBA3CTUBA3ETUBA4ATUBBTUBB1TUBB2ATUBB2BTUBB3TUBB4ATUBB4BTUBB6TUBB8dacAdacBdacCfolAftsImrcAmrcBmrdApolrplArplBrplCrplDrplErplFrplIrplJrplKrplLrplMrplNrplOrplPrplQrplRrplSrplTrplUrplVrplWrplXrplYrpmArpmBrpmB1rpmB2rpmCrpmDrpmErpmE2rpmFrpmGrpmG1rpmG2rpmHrpmIrpmJrpmJ2rpsArpsBrpsCrpsDrpsErpsFrpsGrpsHrpsIrpsJrpsKrpsLrpsMrpsNrpsOrpsPrpsQrpsRrpsR1rpsR2rpsSrpsTrpsUrpsZykgMykgO
The experimentally established mechanism targets of Sulfuric Acid. The predicted profile below is derived independently by chemical similarity — agreement is a validation signal, a miss is honest.
Predicted protein targets (top 19)
| gene | UniProt | supporting neighbours | confidence | |
|---|---|---|---|---|
| ▸ | CA5A | P35218 | 2/20 | 0.75 |
| ▸ | CA5B | Q9Y2D0 | 2/20 | 0.75 |
| ▸ | TSHR | P16473 | 3/20 | 0.46 |
| ▸ | CA2 | P00918 | 2/20 | 0.46 |
| ▸ | CA1 | P00915 | 1/20 | 0.46 |
| ▸ | NT5E | P21589 | 1/20 | 0.46 |
| ▸ | CA4 | P22748 | 1/20 | 0.46 |
| ▸ | CA6 | P23280 | 1/20 | 0.46 |
| ▸ | CA7 | P43166 | 1/20 | 0.46 |
| ▸ | CA9 | Q16790 | 1/20 | 0.46 |
| ▸ | TDP1 | Q9NUW8 | 1/20 | 0.46 |
| ▸ | BLM | P54132 | 2/20 | 0.43 |
| ▸ | KDM4E | B2RXH2 | 2/20 | 0.43 |
| ▸ | MEN1 | O00255 | 1/20 | 0.42 |
| ▸ | ALDH1A1 | P00352 | 1/20 | 0.42 |
| ▸ | KMT2A | Q03164 | 1/20 | 0.42 |
| ▸ | CYP2D6 | P10635 | 1/20 | 0.33 |
| ▸ | CYP2C19 | P33261 | 1/20 | 0.33 |
| ▸ | NPSR1 | Q6W5P4 | 1/20 | 0.33 |
Click a target to see other patent compounds predicted against it — the reverse direction, in place.
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 | |
|---|---|---|---|---|
| Sulfuric Acid SCHEMBL11047226 | 1.00 | CA5A (0.75) | CA5ACA5BTSHRCA2CA1 | |
| Sulfuric Acid SCHEMBL20597751 | 1.00 | CA5A (0.75) | CA5ACA5BTSHRCA2CA1 | |
| Sulfuric Acid SCHEMBL27951097 | 1.00 | — | — | |
| Sulfuric Acid SCHEMBL719222 | 1.00 | CA5A (0.75) | CA5ACA5BTSHRCA2CA1 | |
| Sulfuric Acid SCHEMBL721306 | 1.00 | — | — | |
| Sulfuric Acid SCHEMBL27687611 | 1.00 | CA5A (0.75) | CA5ACA5BTSHRCA2CA1 | |
| Sulfuric Acid SCHEMBL2986438 | 1.00 | CA5A (0.75) | CA5ACA5BTSHRCA2CA1 | |
| Sulfuric Acid SCHEMBL23496267 | 0.94 | CA5A (0.67) | CA5ACA5BTSHRCA2CA1 | |
| Sulfuric Acid SCHEMBL1716331 | 0.94 | — | — | |
| Sulfuric Acid SCHEMBL10506315 | 0.94 | CA5A (0.67) | CA5ACA5BTSHRCA2CA1 |
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 562 patents — showing the first 20. claimed = in the patent's claims; disclosed = body only.
| Patent | Title | Assignee | Published | Priority | Filing | Country | Status |
|---|---|---|---|---|---|---|---|
| US-12529154-B2 | Electrode for electrolysis | LG CHEM, LTD. (KR) | 2026-01-20 | — | — | US | claimed |
| US-12480219-B2 | Electrode for electrolysis | LG CHEM, LTD. (KR) | 2025-11-25 | — | — | US | claimed |
| US-12428742-B2 | Electrode for electrolysis | LG CHEM, LTD. (KR) | 2025-09-30 | — | — | US | claimed |
| WO-2025107372-A1 | METHOD FOR SYNTHESIZING CYCLIC CARBONATE BY UREA ALCOHOLYSIS | 惠州市绿色能源与新材料研究院 | 2025-05-30 | — | — | WO | claimed |
| CN-115700297-B | Electrode material for synthesizing nitrous oxide and preparation method and application thereof | 万华化学集团股份有限公司 | 2025-04-01 | — | — | CN | claimed |
| EP-4512523-A1 | VANADIUM-TUNGSTEN-CERIUM SULFATE-TITANIA CATALYST AND METHOD FOR PREPARING THE SAME | Korea Institute of Science and Technology (KR) | 2025-02-26 | — | — | EP | claimed |
| CN-119455959-A | Cobalt-based composite catalyst and preparation method and application thereof | 中国石油化工股份有限公司 | 2025-02-18 | — | — | CN | claimed |
| CN-119158583-A | Preparation method of nickel-based catalyst and application of nickel-based catalyst in ammonia decomposition hydrogen production | 厦门大学 | 2024-12-20 | — | — | CN | claimed |
| CN-119059547-A | Cerium-containing rare earth functional material and application thereof in preparation of rubber products | 天津包钢稀土研究院有限责任公司 | 2024-12-03 | — | — | CN | claimed |
| CN-116041140-B | Purification method of 3-chloropropene containing ether impurities | 万华化学集团股份有限公司 | 2024-12-03 | — | — | CN | claimed |
| CN-110935728-A | Preparation method of layered wear-resistant light steel-aluminum composite board | 瓯锟科技温州有限公司 | 2020-03-31 | — | — | CN | claimed |
| CN-110756205-A | Nickel-based cerium dioxide coated silicon carbide catalyst and preparation method and application thereof | 天津大学 | 2020-02-07 | — | — | CN | claimed |
| CN-110745878-A | Ce3+Preparation method of basic nickel carbonate doped microspheres | 荆门市格林美新材料有限公司 | 2020-02-04 | — | — | CN | claimed |
| US-20190322637-A1 | METHOD FOR PREPARING HISPIDULIN AND ITS DERIVATIVES | TAIPEI MEDICAL UNIVERSITY (TW) | 2019-10-24 | — | — | US | claimed |
| EP-1793013-B1 | Metallization of dielectrics | ROHM & HAAS ELECT MAT (US) | 2017-07-19 | — | — | EP | claimed |
| US-8765028-B2 | Composition for oxide thin film, method of preparing the composition, method of forming the oxide thin film, and electronic device using the composition | INDUSTRY-ACADEMIC COOPERATION FOUNDATION, YONSEI UNIVERSITY (KR) | 2014-07-01 | — | — | US | claimed |
| US-20120049181-A1 | COMPOSITION FOR OXIDE THIN FILM, METHOD OF PREPARING THE COMPOSITION, METHOD OF FORMING THE OXIDE THIN FILM, AND ELECTRONIC DEVICE USING THE COMPOSITION | INDUSTRY-ACADEMIC COOPERATION FOUNDATION, YONSEI UNIVERSITY (KR) | 2012-03-01 | — | — | US | claimed |
| US-7780771-B2 | Metallization of dielectrics | ROHM AND HAAS ELECTRONIC MATERIALS LLC (US) | 2010-08-24 | — | — | US | claimed |
| US-20070128366-A1 | Metallization of dielectrics | ROHM AND HAAS ELECTRONIC MATERIALS LLC (US) | 2007-06-07 | — | — | US | claimed |
| EP-1793013-A2 | Metallization of dielectrics | Rohm and Haas Electronic Materials LLC (US) | 2007-06-06 | — | — | EP | claimed |
Patent text — is the patent's own abstract consistent with the prediction?
For each of this compound's patents that has machine-readable text (2 of them — usually the abstract, not the full specification), we ask MedCPT which protein the text reads most about, and where the chemistry-predicted target lands among 4885 human targets. A high rank means the patent's own wording is consistent with the prediction — a weak, independent signal, not proof of activity.
| Patent | Title | Text reads most about | Predicted target · text-rank |
|---|---|---|---|
| US-12529154-B2 | Electrode for electrolysis | EZH2, TPO, PRDM7 | CA5A 261/4885CA5B 369/4885TSHR 660/4885 |
| US-20190322637-A1 | METHOD FOR PREPARING HISPIDULIN AND ITS DERIVATIVES | HPD, HAAO, HMBS | CA5A 4043/4885CA5B 4017/4885TSHR 1134/4885 |
“Text reads most about” is the patent abstract's nearest protein in MedCPT space (background-debiased). Only ~1.4% of patents have machine-readable text, so most compounds won't have this panel.