293737-89-0

Basic information

• Product Name: N-(3-AMINOPHENYL)-3-CHLOROBENZAMIDE
• Synonyms: LABOTEST-BB LTBB000248;ASISCHEM T31118;ART-CHEM-BB B025196;AKOS BB-8150;N-(3-AMINOPHENYL)-3-CHLOROBENZAMIDE
• CAS NO: 293737-89-0
• Molecular Formula: C₁₃H₁₁ClN₂O
• Molecular Weight: 246.69
• Mol File: 293737-89-0.mol

Chemical Properties

• Boiling Point: 349.7±27.0 °C(Predicted)
• Appearance: /
• Density: 1.351±0.06 g/cm3(Predicted)
• PKA: 12.72±0.70(Predicted)
• CAS DataBase Reference: N-(3-AMINOPHENYL)-3-CHLOROBENZAMIDE(CAS DataBase Reference)
• NIST Chemistry Reference: N-(3-AMINOPHENYL)-3-CHLOROBENZAMIDE(293737-89-0)
• EPA Substance Registry System: N-(3-AMINOPHENYL)-3-CHLOROBENZAMIDE(293737-89-0)

Safety Data

• Hazard Codes: Xi
• HazardClass: IRRITANT
• Hazardous Substances Data: 293737-89-0(Hazardous Substances Data)

Upstream product

• 68621-88-5 (3-aminophenyl)carbamic acid tert-butyl ester 
• 108-45-2 m-phenylenediamine 
• 618-46-2 m-Chlorobenzoyl chloride 
• 99-09-2 3-nitro-aniline 
• 349398-34-1 3-chloro-N-(3-nitrophenyl)benzamide 
• 535-80-8 3-chlorobenzoate 

Downstream Products

• 625406-33-9 C₁₈H₁₃ClN₂O₃ 
• 1202038-39-8 C₁₉H₁₉ClN₂O₂ 
• 797028-96-7 C₂₁H₁₅ClN₂O₄ 
• 1202038-38-7 C₂₄H₂₅ClN₂O₂ 
• 1031042-01-9 C₁₇H₁₅ClN₂O₂ 
• 424795-76-6 C₁₇H₁₇ClN₂O₂ 
• 347311-12-0 C₂₀H₂₁ClN₂O₂ 
• 423149-44-4 C₂₁H₁₇ClN₂O₂ 
• 1202038-37-6 C₂₃H₁₉ClN₂O₂ 
• 1202038-40-1 C₁₈H₁₇ClN₂O₂ 
• 905110-31-8 C₂₀H₁₅ClN₂O₂ 

Relevant articles and documents

Discovery of arylamide-5-anilinoquinazoline-8-nitro derivatives as VEGFR-2 kinase inhibitors: Synthesis, in vitro biological evaluation and molecular docking

Herein, we embarked on a structural optimization campaign aiming at the discovery of novel anticancer agents with our previously reported XL-6f as a lead compound. A library of 23 compounds has been synthesized based on the highly conserved active site of VEGFR-2. Several title compounds exhibited selective inhibitory activities against VEGFR-2, which also displayed selective anti-proliferation potency against HepG2 cell. All synthesized compounds were evaluated for anti-angiogenesis capability. Compound 7o showed the most potent anti-angiogenesis ability, the efficient cytotoxic activities (in vitro against HUVEC and HepG2 cell lines with IC50 values of 0.58 and 0.23 μM, respectively). The molecular docking analysis revealed 7o is a Type-II inhibitor of VEGFR-2 kinase. In general, these results indicated these arylamide-5-anilinoquinazoline-8-nitro derivatives are promising inhibitors of VEGFR-2 for the potential treatment of anti-angiogenesis.

Design, synthesis and evaluation of azaacridine derivatives as dual-target EGFR and Src kinase inhibitors for antitumor treatment

Overexpression of EGFR is often associated with advanced stage disease and poor prognosis. In certain cancers, Src works synergistically with EGFR to promote proliferation, survival, invasion and metastasis. Development of dual-target drugs against EGFR and Src is of therapeutic advantage against these cancers. Based on molecular docking and our previous studies, we rationally designed a new series of azaacridine derivatives as potent EGFR and Src dual inhibitors. Most of the synthesized azaacridines displayed good antiproliferative activity against K562 and A549?cells. The representative compound 13b showed nM IC50 values against K562 and A549?cells, and inhibited EGFR at inhibition rate of 33.53% at 10?μM and Src at inhibition rate of 72.12% at 1?μM. Furthermore, compound 13b could inhibit the expression of EGFR, p-EGFR, Src and p-Src. Moreover, 13b efficiently inhibited the invasion of tumor cells and induced cancer cells apoptosis. Our study suggested that azaacridine scaffold can be developed as novel multi-target kinase inhibitors for cancer therapy.

Aza-acridine compound and preparation method and application thereof

The invention discloses a method for efficiently preparing an aza-acridine compound. The structural formula of the aza-acridine compound is shown as a formula I; the preparation method comprises the following steps: adding a 2-aminoquinoline-3-methanamide compound and a solvent under an air condition, and heating to reaction temperature; after the reaction is ended, separating and purifying to obtain multisubstituted acridine derivatives shown as the following formula, wherein the reaction temperature is 100 to 200DEG C, and the reaction time is 1 to 24 hours. A synthetic method of the aza-acridine compound, disclosed by the invention, has the advantages of scientificity, reasonability, simple and easily-operated synthesis process and high synthetic yield; a product is easy to purify. The invention also relates to the aza-acridine compound which can be used for inhibiting EGFR (Epidermal Growth Factor Receptor) and SrC, a preparation method of the aza-acridine compound, activity of a drug containing the aza-acridine compound and the application of the drug. The compound is shown in a formula II and can be used for preparing an EGFR and SrC activity inhibitor and a disease treatment medicine activated and mediated by the EGFR and the SrC.

Potent and selective inhibitors of the TASK-1 potassium channel through chemical optimization of a bis-amide scaffold

TASK-1 is a two-pore domain potassium channel that is important to modulating cell excitability, most notably in the context of neuronal pathways. In order to leverage TASK-1 for therapeutic benefit, its physiological role needs better characterization; however, designing selective inhibitors that avoid the closely related TASK-3 channel has been challenging. In this study, a series of bis-amide derived compounds were found to demonstrate improved TASK-1 selectivity over TASK-3 compared to reported inhibitors. Optimization of a marginally selective hit led to analog 35 which displays a TASK-1 IC 50 = 16 nM with 62-fold selectivity over TASK-3 in an orthogonal electrophysiology assay.

Synthesis and SAR of novel, non-MPEP chemotype mGluR5 NAMs identified by functional HTS

This Letter describes the discovery and SAR of three novel series of mGluR5 non-competitive antagonists/negative allosteric modulators (NAMs) not based on manipulation of an MPEP/MTEP chemotype identified by a functional HTS approach. This work demonstrates fundamentally new mGluR5 NAM chemotypes with submicromolar potencies, and further examples of a mode of pharmacology 'switch' to provide PAMs with a non-MPEP scaffold.

ANTI-VIRAL COMPOUNDS

Compounds effective in inhibiting replication of Hepatitis C virus ("HCV") or other viruses are disclosed. This invention is also directed to compositions comprising such compounds, co-formulation or co-administration of such compounds with other anti-viral or therapeutic agents, processes and intermediates for the syntheses of such compounds, and methods of using such compounds for the treatment of HCV or other viral infections.