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M-Tolyloxyacetonitrile, also known as 4-Methoxyphenylacetonitrile, is a chemical compound with the molecular formula C9H9NO. It is a white to light yellow crystalline solid that serves as a versatile intermediate in the production of pharmaceuticals and agrochemicals. This stable compound, characterized by a melting point of 68-71 °C and a boiling point of 280 °C, is a valuable building block in organic synthesis for the preparation of various compounds, including vitamins, antibiotics, and herbicides. However, due to its toxic and irritant properties, M-Tolyloxyacetonitrile requires careful handling and appropriate safety measures during its use.

50635-22-8

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50635-22-8 Usage

Uses

Used in Pharmaceutical Industry:
M-Tolyloxyacetonitrile is used as an intermediate for the synthesis of various pharmaceutical compounds due to its ability to serve as a versatile building block in organic synthesis. Its role in the production of vitamins, antibiotics, and other medicinal agents highlights its importance in this industry.
Used in Agrochemical Industry:
In the agrochemical sector, M-Tolyloxyacetonitrile is utilized as an intermediate in the synthesis of herbicides and other crop protection agents, contributing to its wide application in agriculture for enhancing crop yields and managing pests.
Used in Organic Synthesis:
M-Tolyloxyacetonitrile is used as a key building block in organic synthesis for the preparation of a diverse range of chemical compounds, showcasing its adaptability and significance in the field of chemistry. Its stable nature and reactivity make it a preferred choice for researchers and chemists working on the development of new chemical entities.

Check Digit Verification of cas no

The CAS Registry Mumber 50635-22-8 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 5,0,6,3 and 5 respectively; the second part has 2 digits, 2 and 2 respectively.
Calculate Digit Verification of CAS Registry Number 50635-22:
(7*5)+(6*0)+(5*6)+(4*3)+(3*5)+(2*2)+(1*2)=98
98 % 10 = 8
So 50635-22-8 is a valid CAS Registry Number.

50635-22-8Relevant academic research and scientific papers

Perfluorobutyl iodide-assisted direct cyanomethylation of azoles and phenols with acetonitrile

Zhang, Juan,Wu, Wei,Ji, Xinfei,Cao, Song

, p. 20562 - 20565 (2015/03/30)

A perfluorobutyl iodide-assisted transition-metal-free cyanomethylation of azoles and phenols with acetonitrile in the presence of NaH has been developed. The reaction proceeded smoothly under mild reaction conditions to give the cyanomethylated products in moderate to high yields. A mechanism involving the cyanomethyl radical through C-H bond cleavage in acetonitrile was proposed. This journal is

Combinatorial synthesis and in vitro evaluation of a biaryl hydroxyketone library as antivirulence agents against mrsa

Yu, Guanping,Kuo, David,Shoham, Menachem,Viswanathan, Rajesh

supporting information, p. 85 - 91 (2014/03/21)

Antibiotic resistance coupled with decreased development of new antibiotics necessitates the search for novel antibacterial agents. Antivirulence agents offer an alternative to conventional antibiotics. In this work, we report on a family of small-molecule antivirulence agents against methicillin-resistant Staphylococcus aureus (MRSA), the most widespread bacterial pathogen. Structure-activity relationship studies led to the development of a concise synthesis of a 148-member biarylhydroxyketone library. An acylation bond-forming process afforded resorcinols (1) and aryloxy acetonitriles (2) as synthons. A Lewis-acid-activated Friedel-Crafts' acylation step involving a nitrile functionality of 2 by ZnCl2, followed by nucleophilic attack by 1 was executed to obtain biaryl hydroxyketones in excellent yields. A large number of products crystallized. This strategy affords a range of biarylhydroxyketones in a single step. This is the first collective synthetic study documenting access to this class of compounds through a single synthetic operation. In vitro efficacy of compounds in this library was evaluated by a rabbit erythrocyte hemolysis assay. The most efficacious compound, 4f-12, inhibits hemolysis by 98.1 ± 0.1% compared to control in the absence of the compound.

Novel TypeII Fatty Acid Biosynthesis (FAS II) Inhibitors as Multistage Antimalarial Agents

Schrader, Florian C.,Glinca, Serghei,Sattler, Julia M.,Dahse, Hans-Martin,Afanador, Gustavo A.,Prigge, Sean T.,Lanzer, Michael,Mueller, Ann-Kristin,Klebe, Gerhard,Schlitzer, Martin

, p. 442 - 461 (2013/08/25)

Malaria is a potentially fatal disease caused by Plasmodium parasites and poses a major medical risk in large parts of the world. The development of new, affordable antimalarial drugs is of vital importance as there are increasing reports of resistance to the currently available therapeutics. In addition, most of the current drugs used for chemoprophylaxis merely act on parasites already replicating in the blood. At this point, a patient might already be suffering from the symptoms associated with the disease and could additionally be infectious to an Anopheles mosquito. These insects act as a vector, subsequently spreading the disease to other humans. In order to cure not only malaria but prevent transmission as well, a drug must target both the blood- and pre-erythrocytic liver stages of the parasite. P.falciparum (Pf) enoyl acyl carrier protein (ACP) reductase (ENR) is a key enzyme of plasmodial typeII fatty acid biosynthesis (FASII). It has been shown to be essential for liver-stage development of Plasmodium berghei and is therefore qualified as a target for true causal chemoprophylaxis. Using virtual screening based on two crystal structures of PfENR, we identified a structurally novel class of FAS inhibitors. Subsequent chemical optimization yielded two compounds that are effective against multiple stages of the malaria parasite. These two most promising derivatives were found to inhibit blood-stage parasite growth with IC50 values of 1.7 and 3.0μM and lead to a more prominent developmental attenuation of liver-stage parasites than the gold-standard drug, primaquine.

N-BENZYLINDOLE MODULATORS OF PPARG

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Page/Page column 72, (2012/12/14)

The invention provides molecular entities that bind with high affinity to PPARG (PPARγ), and inhibit kinase-mediated (e.g., cdk5-mediated) phosphorylation of PPARG, but do not exert an agonistic effect on PPARG. Compounds of the invention can be used for treatment of conditions in patients wherein PPARG plays a role, such as diabetes, insulin resistance, impaired glucose tolerance, pre-diabetes, hyperglycemia, hyperinsulinemia, obesity, or inflammation. Side effects such as significant weight gain, edema, impairment of bone growth or formation, or cardiac hypertrophy, or any combination thereof, can be avoided in the mammal receiving the compound. Methods of preparation of the compounds, bioassay methods for evaluating compounds of the invention as non-agonistic PPARG binding compounds, and pharmaceutical compositions are also provided.

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