5 Results for "

intellectual

" in MedChemExpress (MCE) Product Catalog:
Products (5)

5 Results for "intellectual" in MCE Product Catalog:

Cat. No.: HY-148325
CAS No.: 220100-05-0
Purity:  99.74%
Target:  

nAChR

Research Areas:  

Neurological Disease

α7 Nicotinic receptor agonist-1 (Preparation 5) is an α7 nAChR agonist. α7 Nicotinic receptor agonist-1 can be used in studies of psychiatric disorders (such as schizophrenia, manic or hypomanic depression and anxiety disorders) and intellectual disorders (such as alzheimer's disease, learning deficits, cognitive deficits, attention deficits, memory loss, lewy body dementia and attention deficit hyperactivity disorder) .
Cat. No.: HY-W773779
CAS No.: 748145-12-2
Target:  

GSK-3

GSK3-IN-9 (Compound 0713) is a selective glycogen synthase kinase 3 (GSK3) inhibitor. GSK3-IN-9 Fragile X syndrome, attention deficit hyperactivity disorder (ADHD), childhood seizure, intellectual disability, diabetes, acute myeloid leukemia (AML), autism, and psychiatric disorder .
Cat. No.: HY-L141
2,911 compounds

Drug repurposing (also called drug repositioning, reprofiling, or re‑tasking) offers various advantages over developing an entirely new drug for a given indication, for example, lower risk of failure, less investment, and shorter development timelines. But drug repositioning projects are also subject to several risks, including regulatory and intellectual property issues. So the off-patent drugs are optimal for repositioning because of their immediate availability for clinical studies, with high feasibility and relatively low risk.

MCE carefully prepared a unique collection of 2,911 off-patent drugs, which is a good choice for drug repurposing.

Cat. No.: HY-186116A
CAS No.: 1422534-06-2
Target:  

Histone Demethylase

Research Areas:  

Neurological Disease

LSD1-IN-49 hydrochloride (Compound (±) 1) is an irreversible LSD1/KDM1A inhibitor with an IC50 of 29 nM against hLSD1. LSD1-IN-49 hydrochloride irreversibly inhibits the enzymatic activity of LSD1 by forming an adduct with flavin adenine dinucleotide (FAD) in the binding pocket of LSD1. LSD1-IN-49 hydrochloride is applicable to research related to schizophrenia, autism spectrum disorder and Huntington's disease .
Cat. No.: HY-L944
11028 compounds

MCE 18 stands for Medicinal Chemistry Evolution 2018. This metric was established based on structural data of 28,161 patented lead molecules, 1,370 marketed innovative drugs, and nearly 30,000 investigational candidates from preclinical to Phase III stages across 23 major global pharmaceutical companies from 1950 to 2018. After scaffold clustering analysis, a scoring model was constructed by integrating five three dimensional scaffold characteristics, including aromatic rings (AR), non aromatic heterocycles (NAR), chiral centers (CHIRAL), spirocycles (SPIRO), and the sp³ carbon ratio in cyclic and acyclic moieties, enabling quantitative assessment of molecular scaffold novelty and three dimensional complexity.

According to the score distribution of patented molecules, the top 25% of the original patent dataset was defined as the high novelty region. MCE 18 high scoring compounds selected based on this criterion can effectively avoid scaffold patent conflicts and intellectual property risks from the source. Molecules in this range typically feature a high sp³ carbon ratio, abundant chiral centers, spirocycles, and fused heterocycles with prominent three dimensional conformations. Their spatial properties allow precise matching to complex non traditional undruggable target pockets such as PPI interfaces and allosteric sites, making them ideal structural types for early stage screening of First in class drugs.

MCE‑18 Novelty Focused drug‑Like library strictly selects molecules from the aforementioned high scoring range, containing more than 10,000 premium drug like molecules with highly diverse scaffolds and rich 3D diversity. It can be used for high throughput screening of well established targets such as kinases, GPCRs, and proteases, and is especially suitable for hit identification in allosteric modulation, protein–protein interactions, and various undruggable orphan targets, fully supporting early stage drug discovery for cutting edge innovat