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2-Benzothiazolamine,4-chloro-6-methoxy-(9CI) is a chemical with a specific purpose. Lookchem provides you with multiple data and supplier information of this chemical.

51482-98-5

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51482-98-5 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 51482-98-5 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 5,1,4,8 and 2 respectively; the second part has 2 digits, 9 and 8 respectively.
Calculate Digit Verification of CAS Registry Number 51482-98:
(7*5)+(6*1)+(5*4)+(4*8)+(3*2)+(2*9)+(1*8)=125
125 % 10 = 5
So 51482-98-5 is a valid CAS Registry Number.

51482-98-5Downstream Products

51482-98-5Relevant academic research and scientific papers

An efficient one-pot synthesis of 2-aminobenzothiazoles from substituted anilines using benzyltrimethylammonium dichloroiodate and ammonium thiocyanate in DMSO:H2O

Dass, Reuben,Peterson, Matt A.

supporting information, (2021/10/04)

Treatment of a variety of substituted anilines with benzyltrimethylammonium dichloroiodate (1.2 equiv) and ammonium thiocyanate (1.0 equiv) in DMSO:H2O (9:1) at 70 °C gave the corresponding 2-aminobenzothiazoles in excellent isolated yields (75–97%; ave. yield for all substrates = 90%). The reaction worked well for 2(4)-mono-, 2,4-di-, or 3,4,5-tri-substituted anilines, and a wide range of both electron donating groups (MeO, HO, CF3O, Me) and electron withdrawing groups (NO2, CN, CO2Et, CO2H, Cl, F) were well tolerated. This method provides a useful alternative to other methods that are either less efficient (requiring 3–7 fold equivalents of reagents) or utilize highly toxic and corrosive liquid Br2 as the oxidizing agent.

Quinoxaline compound, preparation method and application of quinoxaline compound in medicine

-

, (2021/07/24)

The invention provides a quinoxaline compound, a preparation method and application of the quinoxaline compound in medicine, and particularly relates to a quinoxaline compound with PAR4 antagonistic activity, a preparation method of the quinoxaline compound, a pharmaceutical composition containing the quinoxaline compound and application of the quinoxaline compound. Specifically, the invention provides a compound shown as a general formula I and/or II or a tautomer or pharmaceutically acceptable salt thereof, a preparation method of the compound, and application of the compound or the tautomer or the pharmaceutically acceptable salt in medicines for preventing and/or treating thromboembolic diseases.

Synthesis and evaluation of novel and potent protease activated receptor 4 (PAR4) antagonists based on a quinazolin-4(3H)-one scaffold

Kong, Yi,Li, Shanshan,Liu, Shangde,Xie, Roujie,Yuan, Duo,Zhu, Xiong

supporting information, (2021/08/16)

Protease activated receptor 4 (PAR4) is an important target in antiplatelet therapy to reduce the risk of heart attack and thrombotic complications in stroke. PAR4 antagonists can prevent harmful and stable thrombus growth, while retaining initial thrombus formation, by acting on the late diffusion stage of platelet aggregation, and may provide a safer alternative to other antiplatelet agents. To date, only two PAR4 antagonists, BMS-986120 and BMS-986141 have entered clinical trials for thrombosis. Thus, the development of a potent and selective PAR4 antagonist with a novel chemotype is highly desirable. In this study, we explored the activity of quinazolin-4(3H)-one-based PAR4 antagonists, beginning with their IDT analogues. By repeated structural optimisation, we developed a series of highly selective PAR4 antagonists with nanomolar potency on human platelets. Of these, 13 and 30g, with an 8-benzo[d]thiazol-2-yl-substituted quinazolin-4(3H)-one structure, showed optimal activity (h. PAR4-AP PRP IC50 = 19.6 nM and 6.59 nM, respectively) on human platelets. Furthermore, 13 and 30g showed excellent selectivity for PAR4 versus PAR1 and other receptors (IC50s > 10 μM) on human platelets. And 13 and 30g were lack of cross-reactivity for PAR1 or PAR2 (PAR1 AP FLIPR IC50 > 3162 nM, PAR2 AP FLIPR IC50 > 1000 nM) in the calcium mobilization assays. Metabolic stability assays and cytotoxicity tests of 13 and 30g indicated that these compounds could sever as promising drug candidates for the development of novel PAR4 antagonists. In summary, the quinazolin-4(3H)-one-based analogues are the first reported chemotypes with excellent activity and selectivity against PAR4, and, in the current study, we expanded the structural diversity of PAR4 antagonists. The two compounds, 13 and 30g, found in our study could be promising starting points with great potential for further research in antiplatelet therapy.

Discovery of IACS-9439, a Potent, Exquisitely Selective, and Orally Bioavailable Inhibitor of CSF1R

Czako, Barbara,Marszalek, Joseph. R.,Burke, Jason P.,Mandal, Pijus,Leonard, Paul G.,Cross, Jason B.,Mseeh, Faika,Jiang, Yongying,Chang, Edward Q.,Suzuki, Erika,Kovacs, Jeffrey J.,Feng, Ningping,Gera, Sonal,Harris, Angela L.,Liu, Zhen,Mullinax, Robert A.,Pang, Jihai,Parker, Connor A.,Spencer, Nakia D.,Yu, Simon S.,Wu, Qi,Tremblay, Martin R.,Mikule, Keith,Wilcoxen, Keith,Heffernan, Timothy P.,Draetta, Giulio F.,Jones, Philip

, p. 9888 - 9911 (2020/10/19)

Tumor-associated macrophages (TAMs) have a significant presence in the tumor stroma across multiple human malignancies and are believed to be beneficial to tumor growth. Targeting CSF1R has been proposed as a potential therapy to reduce TAMs, especially the protumor, immune-suppressive M2 TAMs. Additionally, the high expression of CSF1R on tumor cells has been associated with poor survival in certain cancers, suggesting tumor dependency and therefore a potential therapeutic target. The CSF1-CSF1R signaling pathway modulates the production, differentiation, and function of TAMs; however, the discovery of selective CSF1R inhibitors devoid of type III kinase activity has proven to be challenging. We discovered a potent, highly selective, and orally bioavailable CSF1R inhibitor, IACS-9439 (1). Treatment with 1 led to a dose-dependent reduction in macrophages, promoted macrophage polarization toward the M1 phenotype, and led to tumor growth inhibition in MC38 and PANC02 syngeneic tumor models.

Benzotriazine compound with PAR4 antagonistic activity and application thereof

-

, (2020/08/02)

The invention discloses a benzotriazine compound with PAR4 antagonistic activity and application thereof. The present invention relates to a compound of formula (I) or a stereoisomer, tautomer, pharmaceutically acceptable salt, ester, solvate or prodrug t

BICYCLIC HETEROARYL SUBSTITUTED COMPOUNDS

-

, (2018/03/25)

Disclosed are compounds of Formula (I) to (VIII): (I) (II) (III) (IV) (V) (VI) (VII) (VIII); or a stereoisomer, tautomer, pharmaceutically acceptable salt, solvate or prodrug thereof, wherein R3 is a bicyclic heteroaryl group substituted with zero to 3 R3a; and R1, R2, R3a, R4, and n are defined herein. Also disclosed are methods of using such compounds as PAR4 inhibitors, and pharmaceutical compositions comprising such compounds. These compounds are useful in inhibiting or preventing platelet aggregation, and are useful for the treatment of a thromboembolic disorder or the primary prophylaxis of a thromboembolic disorder.

Synthesis and anti-oomycete activity of novel quinazolin- and benzothiazol-6-yloxyacetamides: Potent aza-analogs and five-ring analogs of quinoline fungicides

Beaudegnies, Renaud,Quaranta, Laura,Murphy Kessabi, Fiona,Lamberth, Clemens,Knauf-Beiter, Gertrud,Fraser, Torquil

, p. 444 - 452 (2016/01/25)

Novel quinazolin- and benzothiazol-6-yloxyacetamides show excellent in vivo activity against the three economically most important Oomycete pathogens Phytophthora infestans, Plasmopara viticola and Pythium ultimum. They are polar analogs of known quinolin-6-yloxyacetamides, which are not active against the soil-borne damping-off disease caused by Pythium ultimum. The Bogert quinazoline synthesis, an almost forgotten heterocyclization technique, proved to be highly useful for the concise construction of required quinazolin-6-ol building blocks.

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