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Most of the natural products isolated at present are heterocyclic compounds, so heterocyclic compounds occupy an important position in the research of organic chemistry. A compound: 2199-44-2, is researched, SMILESS is O=C(C1=C(C)C=C(C)N1)OCC, Molecular C9H13NO2Journal, Article, Organic Letters called Rhodium Complex-Catalyzed Reaction of Isonitriles with Carbonyl Compounds: Catalytic Synthesis of Pyrroles, Author is Takaya, Hikaru; Kojima, Sachiko; Murahashi, Shun-Ichi, the main research direction is isonitrile reaction ketone rhodium catalyst; pyrrole preparation isonitrile reaction ketone rhodium catalyst.Application of 2199-44-2.

Low-valent rhodium complexes are efficient catalysts for the activation of α-C-H bond of isonitriles. Addition of isonitriles to carbonyl compounds proceeds under mild and neutral conditions to give the corresponding α,β-unsaturated formamides. Catalytic synthesis of pyrroles can be performed by cyclocondensation of isonitriles with 1,3-dicarbonyl compounds Et 3,4,5-trimethyl-2-pyrrolecarboxylate was obtained in 68% yield and converted to octamethylporphyrin by a standard method.

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So far, in addition to halogen atoms, other non-metallic atoms can become part of the aromatic heterocycle, and the target ring system is still aromatic.Angelini, Giancarlo; Sleiter, Giancarlo researched the compound: Ethyl 3,5-Dimethyl-2-pyrrolecarboxylate( cas:2199-44-2 ).SDS of cas: 2199-44-2.They published the article 《Selective β-chlorination of 1-benzoyl-2-ethoxycarbonyl-3,5-dimethylpyrrole with iodobenzene dichloride. Preparation of ethyl 4-chloro-3,5-dimethylpyrrole-2-carboxylate》 about this compound( cas:2199-44-2 ) in Gazzetta Chimica Italiana. Keywords: chlorination dimethylpyrrolecarboxylate; pyrrolecarboxylate dimethyl ester chlorination; chlorodimethylpyrrolecarboxylate ester. We’ll tell you more about this compound (cas:2199-44-2).

Chlorination of I (R = H, R1 = Bz) with PhI+ClCl- in CHCl3 at -15° in the dark, followed by debenzoylation of the product gave I (R = Cl, R1 = H). Reaction of I ( R = R1 = H) with Cl, SO2Cl2, or PhI+ClCl- in CHCl3 or ether at low temperature resulted in simultaneous chlorination of both the β-position and the α-methyl group.

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SDS of cas: 2199-44-2. So far, in addition to halogen atoms, other non-metallic atoms can become part of the aromatic heterocycle, and the target ring system is still aromatic. Compound: Ethyl 3,5-Dimethyl-2-pyrrolecarboxylate, is researched, Molecular C9H13NO2, CAS is 2199-44-2, about Synthesis of cyanopyrroles.

Regioselective synthesis of α-cyanopyrroles (vs. α-alkoxycarbonylpyrroles) using oximinocyanoacetate esters in a Knorr-type reductive condensation with β-diketones can be directed by the presence of water. Thus, HON:C(CN)CO2Me was reacted with CH2Ac2 in hot AcOH in the presence of Zn dust to give exclusively 3,5-dimethylpyrrole-2-carbonitrile when the AcOH was wet. Whereas, in glacial AcOH, only Me 3,5-dimethylpyrrole-2-carboxylate was isolated in ∼40% yield.

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Staples, Oliver D.; Hollick, Jonathan J.; Campbell, Johanna; Higgins, Maureen; McCarthy, Anna R.; Appleyard, Virginia; Murray, Karen E.; Baker, Lee; Thompson, Alastair; Ronseaux, Sebastien; Slawin, Alexandra M. Z.; Lane, David P.; Westwood, Nicholas J.; Lain, Sonia published the article 《Characterization, chemical optimization and anti-tumor activity of a tubulin poison identified by a p53-based phenotypic screen》. Keywords: JJ781 derivative antitumor design preparation structure activity p53 tubulin.They researched the compound: Ethyl 3,5-Dimethyl-2-pyrrolecarboxylate( cas:2199-44-2 ).Reference of Ethyl 3,5-Dimethyl-2-pyrrolecarboxylate. Aromatic heterocyclic compounds can be divided into two categories: single heterocyclic and fused heterocyclic. In addition, there is a lot of other information about this compound (cas:2199-44-2) here.

A robust p53 cell-based assay that exploits p53’s function as a transcription factor was used to screen a small mol. library and identify bioactive small mols. with potential antitumor activity. Unexpectedly, the majority of the highest ranking hit compounds from this screen arrest cells in mitosis and most of them impair polymerization of tubulin in cells and in vitro. One of these novel compounds, JJ78:1, was subjected to structure-activity relationship studies and optimized leading to the identification of JJ78:12. This mol. is significantly more potent than the original hit JJ78:1, as it is active in cells at two-digit nanomolar concentrations and shows clear antitumor activity in a mouse xenograft model as a single agent. The effects of nocodazole, a well established tubulin poison, and JJ78:12 on p53 levels are remarkably similar, supporting that tubulin depolymerization is the main mechanism by which JJ78:12 treatment leads to p53 activation in cells. In summary, these results identify JJ78:12 as a potential cancer therapeutic, demonstrate that screening for activators of p53 in a cell-based assay is an effective way to identify inhibitors of mitosis progression and highlights p53’s sensitivity to alterations during mitosis.

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The three-dimensional configuration of the ester heterocycle is basically the same as that of the carbocycle. Compound: Ethyl 3,5-Dimethyl-2-pyrrolecarboxylate(SMILESS: O=C(C1=C(C)C=C(C)N1)OCC,cas:2199-44-2) is researched.Reference of Ethyl 3,5-Dimethyl-2-pyrrolecarboxylate. The article 《Direct synthesis of β-alkenylpyrroles by Pd(II)-catalyzed addition of pyrroles to alkynoates》 in relation to this compound, is published in Chemistry Letters. Let’s take a look at the latest research on this compound (cas:2199-44-2).

β-Alkenylpyrroles were prepared directly by Pd(II)-catalyzed addition of pyrroles to alkynoates at room temperature This procedure was applied to direct synthesis of a β-alkenylpyrrole, the pyrrole fragment of hemin.

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The chemical properties of alicyclic heterocycles are similar to those of the corresponding chain compounds. Compound: Ethyl 3,5-Dimethyl-2-pyrrolecarboxylate, is researched, Molecular C9H13NO2, CAS is 2199-44-2, about Pyrrole chemistry. An improved synthesis of ethyl pyrrole-2-carboxylate esters from diethyl aminomalonate, the main research direction is pyrrolecarboxylate; diketone aminomalonate cyclocondensation.HPLC of Formula: 2199-44-2.

Pyrrole-2-carboxylates I (R = Me, Et; R1 = H, Me, Et, Pr, CH2CO2Me, CH2CH2CO2Me; R2 = Me, Et, Pr, CH2CH2CO2Et), versatile precursors for the total synthesis of both synthetic model and naturally occurring tetrapyrroles and porphyrins, were prepared in greatly improved yields by the addition of RCOCHR1COR2 and H2NCH(CO2)Et)2 to AcOH. The method is suitable for both small- and large-scale synthesis and has proved far more reliable than the in situ Zn reduction of HON:C(CO2Et)2. Yields range from 60-70% for the dominant product isomer from unsym. diketones to 75-90% for the single product derived from sym. diketones. RCOCHR1COR2 were prepared by treating RCOCHR1 with (R2CO)2O in the presence of BF3.

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Electric Literature of C9H13NO2. The mechanism of aromatic electrophilic substitution of aromatic heterocycles is consistent with that of benzene. Compound: Ethyl 3,5-Dimethyl-2-pyrrolecarboxylate, is researched, Molecular C9H13NO2, CAS is 2199-44-2, about Synthesis and properties of (1,2,3,7,9-pentamethyldipyrrolylmethen-8-yl)-(1,2,3,7,8-pentamethyldipyrrolylmethen-9-yl)methane and bis(1,2,3,7,9-pentamethyldipyrrolylmethen-8-yl)trifluoromethylmethane dihydrobromides. Author is Berezin, M. B.; Semeikin, A. S.; Yutanova, S. L.; Antina, E. V.; Guseva, G. B.; V’yugin, A. I..

(1,2,3,7,9-Pentamethyldipyrrolylmethen-8-yl)(1,2,3,7,8-pentamethyldipyrrolylmethen-9-yl)-methane and bis(1,2,3,7,9-pentamethyldipyrrolylmethen-8-yl)trifluoromethylmethane hydrobromides were synthesized and characterized spectrally (1H NMR, IR, electron absorption spectra). A comparative study was performed of the effect of the bonding site (α- or β-position of the dipyrrolylmethene) with the methane structural fragment connecting two dipyrrolylmethene chromophores, and trifluoromethyl group on the spectral properties of the mols. of compounds dissolved in organic solvents of different nature and their resistance to thermal oxidative degradation

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Khan, Shafiq A.; Plieninger, Hans published an article about the compound: Ethyl 3,5-Dimethyl-2-pyrrolecarboxylate( cas:2199-44-2,SMILESS:O=C(C1=C(C)C=C(C)N1)OCC ).Name: Ethyl 3,5-Dimethyl-2-pyrrolecarboxylate. Aromatic heterocyclic compounds can be classified according to the number of heteroatoms or the size of the ring. The authors also want to convey more information about this compound (cas:2199-44-2) through the article.

Tripyrrincarboxylic acid I was prepared from pyrrole II by condensation with Me3CCHO and HI to give iodo derivative III which was reduced to IV. SO2Cl2 reacted with IV to give V, which was hydrolyzed to aldehydic acid VI. This condensed with 3,4-dimethyl-3-pyrrolin-2-one to pyrromethenone VII, which was decarboxylated to VIII. VI condensed with VIII to give I. Metal complexes of I are soluble in most organic solvents even after crystallization

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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 Derivatives of pyrrylazobenzenearsonic acids, published in 1950, which mentions a compound: 2199-44-2, Name is Ethyl 3,5-Dimethyl-2-pyrrolecarboxylate, Molecular C9H13NO2, Computed Properties of C9H13NO2.

cf. C.A. 45, 9526a. The synthesis is essentially the same as previously described. 2,4-Dimethyl-3,5-carbethoxypyrrole (I) was prepared by the method of Knorr. I was saponified in 10% KOEt, and converted to 2,4-dimethyl-3-carbethoxy-5-pyrrolecarboxylic acid (II) by the method of Küster, et al. (C.A. 16, 3895). Decarboxylation of II by dry distillation gave 2,4-dimethyl-3-carbethoxypyrrole (III). I was also treated with concentrated H2SO4 by the method of Fischer and Walach (C.A. 20, 1620) to give 2,4-dimethyl-5-carbethoxy-3-pyrrolecarboxylic acid, which was decarboxylated by heating at atm. pressure to 2,4-dimethyl-5-carbethoxypyrrole (IV). Attempts to couple diazotized 4, 3-H2N(O2N)C6H3AsO3H2 and III were not successful; a resinous product, which could not be purified, was obtained, and III was isolated from the reaction mixture Attempts to couple a salt of diazotized 3,4-H2N(HO)C6H3AsO3H2 (V) with IV were also unsuccessful. p-H2NC6H4AsO3H2 (4.34 g.) in 50 cc. H2O containing 1.63 cc. concentrated H2SO4 was diazotized with 20 cc. N NaNO2 at 0-5° and the product filtered into 3.34 g. III in 200 cc. absolute EtOH. 4-(3-Carbethoxy-2,4-dimethyl-5-pyrrylazo)benzenearsonic acid (VI) precipitated as an orange-yellow powder. VI was filtered, rinsed with water, dissolved in aqueous NaOH, and the solution clarified with active C; acidification with dilute HCl gave 4.3 g. VI, orange-yellow microcrystals, decompose 210°, slightly soluble in water, somewhat more soluble in EtOH, nearly insoluble in C6H6 and ether, and soluble in dioxane; crystallization from dioxane gave well-formed needles. VI was precipitated from alk. solution with dilute acids. VI was stable in air under light. V (4.66 g.) in 70 cc. H2O containing 5.8 cc. concentrated H2SO4 was diazotized as above and the product filtered into 3.34 g. III in 200 cc. absolute EtOH. 2-(3-Carbethoxy-2,4-dimethyl-5-pyrrylazo)-1-phenol-4-arsonic acid (VII) precipitated, and addnl. amounts of VII were obtained on diluting with H2O. VII was then dissolved in N NaOH, the solution clarified with active C, added to 0.1 N HCl with constant stirring, and the precipitate was filtered, washed with H2O, dried, and recrystallized twice from dioxane to yield 7.2 g. VII, yellow needles, decompose 160°. VII was stable in air under light. (p-H2NC6H4)2As(:O)OH (1.46 g.) in 30 cc. H2O containing 3.7 cc. concentrated HCl was diazotized as above with 10 cc. N NaNO2 and the solution added dropwise at 5° or lower to 1.67 g. III in 70 cc. EtOH containing 5 g. NaOAc, previously dissolved in a small volume of H2O, to yield di-Et 5, 5′-[arsinobis(p-phenyleneazo)]bis[2,4-dimethyl-3-pyrrolecarboxylate] (VIII). VIII was filtered, washed with cold H2O, dried in vacuo, and recrystallized from dioxane and then from ether to yield 1 g. VIII, dark orange microcrystals, m. 151° (decomposition). VIII was soluble in EtOH, dioxane, and CHCl3. p-H2NC6H4AsO3H2 (2.17 g.) in 25 cc. H2O containing 0.81 cc. concentrated H2SO4 was diazotized with 10 cc. N NaNO2 and the product filtered into 1.67 g. IV in 200 cc. absolute EtOH; when the solution was clear 15 g. NaOAc in a small amount of H2O was added with cooling, and, after 1 hr., 4 l. H2O was added to precipitate 4-(5-carbethoxy-2,4-dimethyl-3-pyrrylazo)benzenearsonic acid (IX), yellow-orange powder. IX was twice dissolved in alkali and reprecipitated by dilute HCl, washed with water, and dried in vacuo to yield 1.2 g. IX, darkens 100°, m. 185° (decomposition), IX was soluble in EtOH and dioxane, and stable in air under light.

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The reaction of an aromatic heterocycle with a proton is called a protonation. One of articles about this theory is 《A modified Knorr pyrrole synthesis》. Authors are MacDonald, S. F.; Stedman, R. J..The article about the compound:Ethyl 3,5-Dimethyl-2-pyrrolecarboxylatecas:2199-44-2,SMILESS:O=C(C1=C(C)C=C(C)N1)OCC).Computed Properties of C9H13NO2. Through the article, more information about this compound (cas:2199-44-2) is conveyed.

Isonitrosoacetoacetic ester reacts with p-AcCH2SO2C6H4Me, under the conditions of the Knorr pyrrole synthesis, to yield 4% 2,4-dimethyl-3-(p-toluenesulfonyl)-5-carbethoxypyrrole (I), m. 185-6°. When I is refluxed 4 hrs. with W-6 catalyst in absolute EtOH, 2,4-dimethyl-5-carbethoxypyrrole, m. 123-4°, is formed.

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