Known targets — ChEMBL curated mechanism
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
The experimentally established mechanism targets of Phosphoric Acid. The predicted profile below is derived independently by chemical similarity — agreement is a validation signal, a miss is honest.
Predicted protein targets (top 2)
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 | |
|---|---|---|---|---|
| Phosphoric Acid SCHEMBL1133239 | 1.00 | SLC34A1 (0.42) | SLC34A1LMNA | |
| Phosphoric Acid SCHEMBL5179411 | 1.00 | SLC34A1 (0.42) | SLC34A1LMNA | |
| Phosphoric Acid SCHEMBL29020585 | 1.00 | SLC34A1 (0.42) | SLC34A1LMNA | |
| Phosphoric Acid SCHEMBL2455597 | 1.00 | SLC34A1 (0.42) | SLC34A1LMNA | |
| Phosphoric Acid SCHEMBL735373 | 1.00 | SLC34A1 (0.42) | SLC34A1LMNA | |
| Phosphoric Acid SCHEMBL844683 | 1.00 | SLC34A1 (0.42) | SLC34A1LMNA | |
| Phosphoric Acid SCHEMBL5921833 | 1.00 | SLC34A1 (0.42) | SLC34A1LMNA | |
| Phosphoric Acid SCHEMBL2590425 | 1.00 | SLC34A1 (0.42) | SLC34A1LMNA | |
| Phosphoric Acid SCHEMBL23722691 | 0.94 | SLC34A1 (0.50) | SLC34A1LMNA | |
| Phosphoric Acid SCHEMBL2225189 | 0.94 | — | — |
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 167 patents — showing the first 20. claimed = in the patent's claims; disclosed = body only.
| Patent | Title | Assignee | Published | Priority | Filing | Country | Status |
|---|---|---|---|---|---|---|---|
| WO-2026107188-A1 | COMPOSITE MATERIAL OR COMPOSITE MATERIAL LAYER WITH THERMAL BARRIER PROPERTIES | SAINT-GOBAIN PERFORMANCE PLASTICS CORPORATION (US) | 2026-05-21 | — | — | WO | claimed |
| US-20260139111-A1 | COMPOSITE MATERIAL OR COMPOSITE MATERIAL LAYER WITH THERMAL BARRIER PROPERTIES | SAINT GOBAIN PERFORMANCE PLASTICS CORP (US) | 2026-05-21 | — | — | US | claimed |
| EP-3146581-B1 | LITHIUM ION BATTERY WITH THERMAL RUNAWAY PROTECTION | CADENZA INNOVATION INC (US) | 2025-08-13 | — | — | EP | claimed |
| WO-2024149252-A1 | MAGNESIUM PHOSPHATE SUBSTANCE, PHARMACEUTICAL COMPOSITION CONTAINING SAME, AND USE THEREOF | 上海石趣医药科技有限公司 | 2024-07-18 | — | — | WO | claimed |
| CN-115051082-A | Composite heat management sheet, manufacturing method and product using same | 罗杰斯公司 | 2022-09-13 | — | — | CN | claimed |
| CN-112624151-B | AFN structure heteroatom molecular sieve composed of magnesium, phosphorus and aluminum and synthetic method and application thereof | 中国石油化工股份有限公司 | 2022-06-28 | — | — | CN | claimed |
| US-11349147-B2 | Battery systems | Cadenza Innovation, Inc. (US) | 2022-05-31 | — | — | US | claimed |
| CN-111422843-B | Synthesis method of molecular sieve | 中国石油化工股份有限公司 | 2021-10-08 | — | — | CN | claimed |
| CN-112624151-A | AFN structure heteroatom molecular sieve composed of magnesium, phosphorus and aluminum, and synthetic method and application thereof | 中国石油化工股份有限公司 | 2021-04-09 | — | — | CN | claimed |
| CN-111422843-A | Synthesis method of molecular sieve | 中国石油化工股份有限公司 | 2020-07-17 | — | — | CN | claimed |
| US-10125081-B2 | Method for producing carboxylic acid anhydride and method for producing carboxylic acid ester | MITSUBISHI CHEMICAL CORPORATION (JP) | 2018-11-13 | — | — | US | claimed |
| US-9105780-B2 | Method of fabricating graphene quantum dots and high quality graphene quantum dots using the method | KOREA ADVANCED INSTITUTE OF SCIENCE AND TECHNOLOGY (KR) | 2015-08-11 | — | — | US | claimed |
| US-20150118143-A1 | METHOD OF FABRICATING GRAPHENE QUANTUM DOTS AND HIGH QUALITY GRAPHENE QUANTUM DOTS USING THE METHOD | KOREA ADVANCED INSTITUTE OF SCIENCE AND TECHNOLOGY (KR) | 2015-04-30 | — | — | US | claimed |
| US-20130078394-A1 | Fire Retardants, Fire Retardant Synthetic Turf Products and Methods of Making Same | TEXTILE RUBBER AND CHEMICAL COMPANY, INC. (US) | 2013-03-28 | — | — | US | claimed |
| EP-0113153-B1 | A PROCESS FOR THE MANUFACTURE OF HIGHLY PURE TRIMAGNESIUM PHOSPHATE OCTAHYDRATE | STAUFFER CHEMICAL COMPANY (US) | 1987-03-18 | — | — | EP | claimed |
| US-4315078-A | Flame retardant flexible polyurethane foam containing finely divided inorganic salt wherein a mold of said salt contains at least five moles of water | THE UPJOHN COMPANY (US) | 1982-02-09 | — | — | US | claimed |
| JP-54101786-A | — | — | None | — | — | JP | disclosed |
| US-20260139111-A1 | COMPOSITE MATERIAL OR COMPOSITE MATERIAL LAYER WITH THERMAL BARRIER PROPERTIES | SAINT GOBAIN PERFORMANCE PLASTICS CORP (US) | 2026-05-21 | — | — | US | disclosed |
| US-4315078-A | Flame retardant flexible polyurethane foam containing finely divided inorganic salt wherein a mold of said salt contains at least five moles of water | THE UPJOHN COMPANY (US) | 1982-02-09 | — | — | US | disclosed |
| JP-S54101786-A | PRODUCTION OF AFTERGLOWING PHOSPHOR | MITSUBISHI ELECTRIC CORP | 1979-08-10 | — | — | JP | disclosed |
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-10125081-B2 | Method for producing carboxylic acid anhydride and method for producing carboxylic acid ester | CA1, CA12, CA6 | SLC34A1 2775/4885LMNA 3797/4885 |
| US-20260139111-A1 | COMPOSITE MATERIAL OR COMPOSITE MATERIAL LAYER WITH THERMAL BARRIER PROPERTIES | CFD, FLNA, FLNB | SLC34A1 2582/4885LMNA 77/4885 |
“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.