Category: pyridazine

Synthetic Route of C10H9NO2. The protonation of heteroatoms in aromatic heterocycles can be divided into two categories: lone pairs of electrons are in the aromatic ring conjugated system; and lone pairs of electrons do not participate. Compound: 5-Methoxy-1H-indole-2-carbaldehyde, is researched, Molecular C10H9NO2, CAS is 21778-81-4, about Asymmetric Sequential Corey-Chaykovsky Cyclopropanation/Cloke-Wilson Rearrangement for the Synthesis of 2,3-Dihydrofurans. Author is Zhou, Yiming; Li, Ning; Cai, Wei; Huang, You.

The first sequential Corey-Chaykovsky cyclopropanation/Cloke-Wilson rearrangement between propargyl sulfonium salts and acrylonitrile derivatives was developed, affording the tetra-substituted 2,3-dihydrofurans in generally excellent yields (57-98%) with good diastereoselectivities (7:1-18:1). In addition, chiral propargyl sulfonium salt is also suitable for this strategy, giving the optically active 2,3-dihydrofurans with good enantioselectivities. This reaction sequence was designed upon in situ generated 10π-conjugated structures from the dearomatization of indole fragments and subsequent intramol. 1,6-addition

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Quality Control of 5-Methoxy-1H-indole-2-carbaldehyde. Aromatic heterocyclic compounds can also be classified according to the number of heteroatoms contained in the heterocycle: single heteroatom, two heteroatoms, three heteroatoms and four heteroatoms. Compound: 5-Methoxy-1H-indole-2-carbaldehyde, is researched, Molecular C10H9NO2, CAS is 21778-81-4, about Dihydrofuro[3,4-c]pyridinones as Inhibitors of the Cytolytic Effects of the Pore-Forming Glycoprotein Perforin. Author is Lena, Gersande; Trapani, Joseph A.; Sutton, Vivien R.; Ciccone, Annette; Browne, Kylie A.; Smyth, Mark J.; Denny, William A.; Spicer, Julie A..

Dihydrofuro[3,4-c]pyridinones are the first class of small mols. reported to inhibit the cytolytic effects of the lymphocyte toxin perforin. A lead structure was identified from a high throughput screen, and a series of analogs I (X = O, S; Y = O, NH; R = Ph, 4-FC6H4, 2-furyl, 5-methyl-2-thienyl, 3-thienyl, 2-benzofuryl, 3-benzothienyl, 3-indolyl, etc.) were designed and prepared to explore structure-activity relationships around the core bicyclic ring and pendant aryl(heteroaryl) ring. This resulted in the identification of a submicromolar inhibitor of the perforin-induced lysis of Jurkat T-lymphoma cells.

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Product Details of 17739-45-6. Aromatic compounds can be divided into two categories: single heterocycles and fused heterocycles. Compound: 2-(2-Bromoethoxy)tetrahydro-2H-pyran, is researched, Molecular C7H13BrO2, CAS is 17739-45-6, about Synthesis and preclinical evaluation of [18F]PF04217903, a selective MET PET tracer. Author is Lien, Vegard Torp; Hauge, Emily; Nuruddin, Syed; Klaveness, Jo; Olberg, Dag Erlend.

The tyrosine kinase MET (hepatocyte growth factor receptor) is abnormally activated in a wide range of cancers and is often correlated with a poor prognosis. Precision medicine with positron emission tomog. (PET) can potentially aid in the assessment of tumor biochem. and heterogeneity, which can prompt the selection of the most effective therapeutic regimes. The selective MET inhibitor PF04217903 (1) formed the basis for a bioisosteric replacement to the deoxyfluorinated analog [18F]2, intended as a PET tracer for MET. [18F]2 could be synthesized with a “”hydrous fluoroethylation”” protocol in 6.3 ± 2.6% radiochem. yield and a molar activity of >50 GBq/μmol. In vitro autoradiog. indicated that [18F]2 specifically binds to MET in PC3 tumor tissue, and in vivo biodistribution in mice showed predominantly a hepatobiliary excretion along with a low retention of radiotracer in other organs.

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COA of Formula: C11H11NO4. The fused heterocycle is formed by combining a benzene ring with a single heterocycle, or two or more single heterocycles. Compound: 2-(5-Methoxy-2-oxoindolin-3-yl)acetic acid, is researched, Molecular C11H11NO4, CAS is 885272-25-3, about Preparation of O-methyl substituted 2-oxofuro- and 2-oxopyrrolidinoindolines by reductive lactonization of oxindolylacetic acids. Author is Morales-Rios, Martha S.; Rivera-Becerril, Ernesto; Lopez-Camacho, Perla Y.; Perez-Rojas, Nadia A.; Suarez-Castillo, Oscar R..

A practical procedure for the preparation of O-methyl-substituted 3a,8-dialkyl-2-oxofuroindoline derivatives was described. A reductive lactonization of the corresponding (oxindolyl)acetic acids provides a route for the formation of this class of compounds Further transformation of 2-oxofuroindolines into 2-oxopyrrolidinoindolines and then to pyrrolidinoindolines demonstrates their versatility as key intermediates in natural products synthesis. The results of single-crystal X-ray crystallog. analyses are given for five of the studied compounds The title compounds thus formed included a 3,3a,8,8a-tetrahydro-2H-furo[2,3-b]indol-2-one (furanone) derivative (I) and (3aR,8aS)-rel-1,2,3,3a,8,8a-hexahydro-5-methoxy-1-methyl-3a,8-bis(phenylmethyl)pyrrolo[2,3-b]indole (II) and related compounds, such as 5-methoxydebromoflustramine B. The synthesis of the target compounds was achieved using 2,3-dihydro-5-methoxy-1H-indole-3-acetic acid derivatives as key intermediates.

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The preparation of ester heterocycles mostly uses heteroatoms as nucleophilic sites, which are achieved by intramolecular substitution or addition reactions. Compound: 5-Methoxy-1H-indole-2-carbaldehyde( cas:21778-81-4 ) is researched.COA of Formula: C10H9NO2.Kuwano, Satoru; Suzuki, Takumi; Yamanaka, Masahiro; Tsutsumi, Ryosuke; Arai, Takayoshi published the article 《Catalysis based on C-I···π halogen bonds: electrophilic activation of 2-alkenylindoles by cationic halogen-bond donors for [4+2] cycloadditions》 about this compound( cas:21778-81-4 ) in Angewandte Chemie, International Edition. Keywords: alkenylindole iodoimidazolium triflate catalyst diastereoselective cycloaddition; indolyl tetrahydrocarbazole preparation; cycloaddition; density-functional calculations; halogen bonding; heterocycles; noncovalent bonds. Let’s learn more about this compound (cas:21778-81-4).

Homo- and cross-[4+2] cycloadditions of 2-alkenylindoles catalyzed by cationic halogen-bond donors were developed. Under mild reaction conditions, 3-indolyl-substituted tetrahydrocarbazole derivatives were obtained in good to excellent yields. Exptl. and quantum calculation studies revealed that the electrophilic activation of 2-alkenylindoles was achieved by C-I···π halogen bonds.

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Pyridazine – Wikipedia,
Pyridazine | C4H4N2 – PubChem

Application In Synthesis of 5-Methoxy-1H-indole-2-carbaldehyde. The mechanism of aromatic electrophilic substitution of aromatic heterocycles is consistent with that of benzene. Compound: 5-Methoxy-1H-indole-2-carbaldehyde, is researched, Molecular C10H9NO2, CAS is 21778-81-4, about Catalytic Asymmetric [3 + 2] Annulation via Indolyl Copper-Allenylidene Intermediates: Diastereo- and Enantioselective Assembly of Pyrrolo[1,2-a]indoles. Author is Zhang, Jian; Ni, Tao; Yang, Wu-Lin; Deng, Wei-Ping.

A catalytic asym. decarboxylative [3 + 2] annulation via indolyl copper-allenylidene amphiphilic intermediates has been developed. This protocol offers a straightforward method for the synthesis of biol. important pyrrolo[1,2-a]indoles bearing contiguous quaternary and tertiary stereogenic centers with excellent diastereo- and enantioselectivities (up to >20:1 dr and >99% ee). In addition, the diversity-oriented synthesis of pyrrolo[1,2-a]indoles was achieved via versatile transformations of the alkyne-containing cycloadducts.

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Application of 136725-55-8. The mechanism of aromatic electrophilic substitution of aromatic heterocycles is consistent with that of benzene. Compound: (R)-(-)-3-Fluoropyrrolidine Hydrochloride, is researched, Molecular C4H9ClFN, CAS is 136725-55-8, about Enantiomorphic Perovskite Ferroelectrics with Circularly Polarized Luminescence. Author is Gao, Ji-Xing; Zhang, Wan-Ying; Wu, Zheng-Guang; Zheng, You-Xuan; Fu, Da-Wei.

Materials with circularly polarized luminescence (CPL) activity have immense potential applications in mol. switches, optical sensors, information storage, asym. photosynthesis, 3D optical displays, biol. probe, and spintronic devices. However, the achiral architectures of most of the luminophores severely limit their practical needs. Within this context, mol. ferroelecs. with striking chem. variability and structure-property flexibility bring light to the assembly of CPL-active ferroelec. materials. Herein, we report organic-inorganic perovskite enantiomorphic ferroelecs., (R)- and (S)-3-(fluoropyrrolidinium)MnBr3, undergoing a 222F2-type ferroelec. phase transition at 273 K. Their mirror relationships are verified by both single-crystal X-ray diffraction and vibrational CD (VCD). Furthermore, the corresponding Cotton effect for two chiral crystals was captured by mirror CPL activity. This may be assigned to the inducing interaction between the achiral luminescent perovskite framework and chiral organic components. As far as we know, this is the first mol. ferroelec. with CPL activity. Accordingly, this will inspire intriguing research in mol. ferroelecs. with CPL activity and holds great potential for the development of new optoelectronic devices.

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In general, if the atoms that make up the ring contain heteroatoms, such rings become heterocycles, and organic compounds containing heterocycles are called heterocyclic compounds. An article called Convenient synthesis of tetrahydro-γ-carbolines and tetrahydroquinolines through a chemo- and regioselectivity switch by a Bronsted acid catalyzed, one-pot, multicomponent reaction, published in 2010-09-30, which mentions a compound: 21778-81-4, Name is 5-Methoxy-1H-indole-2-carbaldehyde, Molecular C10H9NO2, Application In Synthesis of 5-Methoxy-1H-indole-2-carbaldehyde.

An efficient, one-pot, multicomponent reaction of aldehydes, p-methoxyaniline, and 2-vinylindoles was developed. This approach provides a practical approach to synthetically and biol. significant tetrahydro-γ-carboline and tetrahydroquinoline derivatives in good yields through a chemo- and regioselectivity switch, which can be tuned by simply changing the substituent on the indole component under identical reaction conditions.

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Pyridazine – Wikipedia,
Pyridazine | C4H4N2 – PubChem

Recommanded Product: 5-Methoxy-1H-indole-2-carbaldehyde. The mechanism of aromatic electrophilic substitution of aromatic heterocycles is consistent with that of benzene. Compound: 5-Methoxy-1H-indole-2-carbaldehyde, is researched, Molecular C10H9NO2, CAS is 21778-81-4, about I2/DMSO-catalyzed one-pot approach for the synthesis of 1,3,4-selenadiazoles. Author is Bowroju, Suresh Kuarm; Bavanthula, Rajitha.

A three-component cascade reaction for the synthesis of 1,3,4-selenadiazoles and their derivatives from arylaldehydes, hydrazine, and elemental selenium by using mol. iodine wais reported. This strategy was operationally simple, well-suited to a wide range of functional groups, and provided the desired products in moderate to excellent yields. The proposed mechanism predicted that the reaction tolerated a radical process.

In some applications, this compound(21778-81-4)Recommanded Product: 5-Methoxy-1H-indole-2-carbaldehyde is unique.If you want to know more details about this compound, you can contact with the author or consult more relevant literature.

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Pyridazine – Wikipedia,
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SDS of cas: 21778-81-4. The protonation of heteroatoms in aromatic heterocycles can be divided into two categories: lone pairs of electrons are in the aromatic ring conjugated system; and lone pairs of electrons do not participate. Compound: 5-Methoxy-1H-indole-2-carbaldehyde, is researched, Molecular C10H9NO2, CAS is 21778-81-4, about Synthetic studies on mitomycins. Synthesis of aziridinopyrrolo[1,2-a]indoles. Author is Hirata, Tadashi; Yamada, Yasuhiro; Matsui, Masanao.

Conversion of the nitro compounds 2,4,5-Me(R1O)R2C6H2NO2 (R1, R2 = Me, H; Me, Me; PhCH2O, H; PhCH2O, Me) by a modified Reissert indole synthesis gave the esters I (R3 = CO2Et), m. 155-6, – , – , 141-2°, resp., reduced by LiAlH4 to the alcs. I (R3 = CH2OH), m. 83.5-5.0, 139-40, 103-4, 100-3°, resp., oxidized in turn by KMnO4 in Me2CO with poor yields (10-20%) or with yields up to 90% by CrO3-C5H5N of the corresponding aldehydes I (R3 = CHO), m. 136-7, 172-3, 178-9, 172-5°, resp. The aldehydes treated with NaH and H2C:CHPPh3Br in tetrahydrofuran (THF) gave 80-8% yields of 9H-pyrrolo[1,2-a]indoles (II) (R1, R2 = Me, H; PhCH2O, H; PhCH2O, Me), m. 80-1, 88-9, 88-9°, resp., with structures supported by uv and N.M.R. spectra. Acylation of II with KOCMe3 and Me2CO3 afforded 60-80% 3H-pyrrolo-[1,2-a]indoles (III) (R4 = OMe), m. 121-3, 122-3, 139-41°, resp. Similarly acylation with HCO2Et gave III (R4 = H; R1, R2 = Me, H; PhCH2O, Me), m. 135-41 (decomposition), and 138-42°, with structures supported by ir, uv, and N.M.R. spectra. Functionalization of the vinylic double bond of III for attachment of the aziridine moiety was achieved by iodine-azide addition giving 74-5% yields of iodo-azides (IV, R1, R2 = Me, H; PhCH2O, Me), m. 93.8-4.5, and 171-9°, ir, uv, and N.M.R. spectral data given. Catalytic hydrogenation of IV over Pd-C in MeOH containing HCl gave 60-90% yields of the corresponding iodo-amine hydrochlorides, m. >300, >300°, yielding the expected iodoamines, m. indefinite, 135-41° (decomposition), resp., ir bands (Nujol) given. Protection of the amine group with ClCO2Me furnished the iodo carbamates (V) (R5 = H; R1, R2 = Me, H; PhCH2O, Me) (VI, VII), m. 160-2 and 183-4°, resp. Cyclization with NaOMe in (MeOCH2)2 or THF gave VIII (R5 = H; R1 = Me, R2 = H), m. 210.5-14.5°, with structure confirmed by spectroscopic data, and VIII (R5 = H, R1 = PhCH2O, R2 = Me), m. 219.5-21.5°. Nitration of VI and VII gave the 8-nitro derivatives V (R5 = NO2, R1, R2 = Me, H; PhCH2O, Me), m. indefinite and 192-9°, resp. The location of the NO2 group was elucidated by N.M.R. spectral anal. The ring closure of the 8-nitro derivatives similarly gave the corresponding aziridines, VIII (R5 = NO2; R1, R2 = Me, H; PhCH2O, Me), m. 242-6, and 232-3.5°.

In some applications, this compound(21778-81-4)SDS of cas: 21778-81-4 is unique.If you want to know more details about this compound, you can contact with the author or consult more relevant literature.

Reference:
Pyridazine – Wikipedia,
Pyridazine | C4H4N2 – PubChem