Tag: M.W:100-200

HPLC of Formula: 148-51-6. 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: 5-(hydroxymethyl)-2,4-dimethylpyridin-3-ol hydrochloride, is researched, Molecular C8H12ClNO2, CAS is 148-51-6, about Investigation of related impurities in metadoxine by a reversed phase high performance liquid chromatography technique.

A new reversed-phase high-performance liquid chromatog. (RP-HPLC) method has been developed for the separation and identification of impurities present in metadoxine. Herein, we report that one of the impurities eluted from the metadoxine sample is 4-deoxypyridoxine hydrochloride (4-DPH). In HPLC anal., the retention time (RT) of 4-DPH was observed to be at 13.5 min in both the reference and metadoxine samples and the relative retention time (RRT) was 1.71. The presence of 4-DPH in a metadoxine sample was also confirmed by a chromatogram obtained by spiking the 4-DPH standard into the sample. Furthermore, the elution and mass of impurity 4-DPH in metadoxine was proven by LC-mass spectroscopy studies. This method highlights the presence of another unknown impurity that has so far not been observed in earlier methods of metadoxine evaluation. Hence, the developed method achieved superior resolution between metadoxine and impurities and thereby facilitates the production of a purer metadoxine drug.

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Reference:
Pyrimidine | C4H4N2 – PubChem,
Pyrimidine – Wikipedia

Application In Synthesis of 4-Chloro-8-methylquinoline. 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: 4-Chloro-8-methylquinoline, is researched, Molecular C10H8ClN, CAS is 18436-73-2, about A mild and efficient method for the preparation of 3-(2′-aminoaryl)pyrazoles from 4-chloroquinolines. Author is Borges, Julio C.; de Oliveira, Cesar D.; da Silva Pinheiro, Luiz C.; Marra, Roberta K. F.; Khan, Misbahul Ain; Wardell, James L.; Wardell, Solange M. S. V.; Bernardino, Alice M. R..

The authors described a mild and efficient method for the formation of 3-(2′-aminoaryl)pyrazoles in excellent yields from reactions of 4-chloroquinolines with hydrazine. These heterocyclic ring opening reactions occur under much milder conditions then previously described. The structures of the compounds were determined by spectral data and confirmed by x-ray diffraction anal. of 3-(2′-amino-3′-methylphenyl)pyrazole [monoclinic, C2, a 25.9750(3), b 9.5820(6), c 7.8299(7) Å, β 107.541(3)°, V 1858.2(2) Å3, Z 8].

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Pyrimidine | C4H4N2 – PubChem,
Pyrimidine – Wikipedia

The three-dimensional configuration of the ester heterocycle is basically the same as that of the carbocycle. Compound: 5-(hydroxymethyl)-2,4-dimethylpyridin-3-ol hydrochloride(SMILESS: OC1=C(C)C(CO)=CN=C1C.[H]Cl,cas:148-51-6) is researched.Reference of 5,5′-Dimethyl-2,2′-bipyridine. The article 《Separation and identification of water-soluble vitamins and vitamin B6 analogs》 in relation to this compound, is published in Yaowu Fenxi Zazhi. Let’s take a look at the latest research on this compound (cas:148-51-6).

Vitamin B12  [68-19-9], vitamin B1  [59-43-8], folic acid  [59-30-3], calcium pantothenate  [137-08-6], rutin  [153-18-4], vitamin C  [50-81-7], vitamin B2  [83-88-5], nicotinamide  [98-92-0], nicotinic acid  [59-67-6], p-aminobenzoic acid  [150-13-0], pyridoxal 5-phosphate  [54-47-7], pyridoxol-HCl  [58-56-0], pyridoxamine-2HCl  [524-36-7], pyridoxal-HCl  [65-22-5], and 4-deoxypyridoxol-HCl  [148-51-6] were identified by TLC (using various solvent systems), high-performance liquid chromatog., IR and UV spectrophotometry. Characteristics (Rf values, retention times, absorbances) of these compounds are tabulated.

I hope my short article helps more people learn about this compound(5-(hydroxymethyl)-2,4-dimethylpyridin-3-ol hydrochloride)COA of Formula: C8H12ClNO2. Apart from the compound(148-51-6), you can read my other articles to know other related compounds.

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Pyrimidine | C4H4N2 – PubChem,
Pyrimidine – Wikipedia

Jaffe, Israeli A.; Merryman, Parvin; Ehrenfeld, Ellie published an article about the compound: 5-(hydroxymethyl)-2,4-dimethylpyridin-3-ol hydrochloride( cas:148-51-6,SMILESS:OC1=C(C)C(CO)=CN=C1C.[H]Cl ).Recommanded Product: 5-(hydroxymethyl)-2,4-dimethylpyridin-3-ol hydrochloride. 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:148-51-6) through the article.

Of a series of mercaptan compounds tested, only D-penicillamine [52-67-5] possessed antiviral activity against polio virus in tissue culture. D-penicillamine produced a marked inhibition in viral directed RNA and protein synthesis, which was not dependent upon vitamin B6 antagonism. The effect was completely reversible.

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Pyrimidine | C4H4N2 – PubChem,
Pyrimidine – Wikipedia

The reaction of an aromatic heterocycle with a proton is called a protonation. One of articles about this theory is 《4,5-Dihalo and 3-amino analogs of pyridoxine. New route to 4-deoxypyridoxine》. Authors are McCasland, G. E.; Gottwald, L. Kenneth; Furst, Arthur.The article about the compound:5-(hydroxymethyl)-2,4-dimethylpyridin-3-ol hydrochloridecas:148-51-6,SMILESS:OC1=C(C)C(CO)=CN=C1C.[H]Cl).Synthetic Route of C8H12ClNO2. Through the article, more information about this compound (cas:148-51-6) is conveyed.

Dihalo analogs of pyridoxine, expected to show good alkylating activity, were prepared as potential antitumor agents. SOCl2 (15.0 ml.) was added to 2.06 g. powd. dry pyridoxine hydrochloride (I), the mixture refluxed 1 hr., cooled to 0-25° for several days, filtered, and the crystals washed with C6H6, then with 10 ml. Me2CO, m. 140-90°. Recrystallization from absolute EtOH-C6H6 gave 1.6 g. needles. Dissolution in 25 ml. boiling absolute EtOH and treatment with 25 ml. hot C6H6 gave on cooling 0.9 g. 2-methyl-3-hydroxy-4,5-bis(chloromethyl)pyridine hydrochloride (II), m. 175-90° (decomposition), recrystallized from 10 ml. EtOH to yield 0.7 g. product, m.p. unchanged. I (6.2 g.) treated with 43.5 ml. SOCl2 but kept at 25° only 12 hrs. gave after washing with Me2CO 7.1 g. II, m. 185-95° (decomposition). The use of PCl5 in CCl4, or concentrated HCl, failed to yield pure II. I (21.4 g.) and 200 ml. 8.8M HBr was refluxed 15 min., cooled, filtered, and the solid washed with H2O and Me, CO to give 24.2 g. crystalline 2methyl-3-hydroxy-4,5-bis(bromomethyl)pyridine hydrobromide (III), m. 224-8° (decomposition). III (1.88 g.) was stirred with 0.463 g. NaHCO3 in 20 ml. H2O; the mixture turned pink, then red, and after 100 min. stirring was filtered. The solid was washed with H2O and dried to give 0.6 g. brown-red powder, m. above 325°. The pH of the filtrate was 2, indicating displacement of one or both Br atoms from BrCH2. The solid was insoluble at the boiling point in EtOH, H2O, or 6M HCl. I (2.06 g.) boiled with 67.2 g. 7.6M HI gave 1.3 g.2-methyl-3-hydroxy-4,5-bis(iodomethyl)pyridine hydriodide (IV), m. 120-60° (decomposition). III with NaI in Me2CO failed to give IV. 2-Methyl-3-amino-4,5-bis(hydroxymethyl)pyridine monohydrochloride (V), m. 195-7°, with 8.8M HBr gave 34% 2 methyl-3-amino4,5-bis(bromomethyl)pyridine hydrobromide, m. 220° (decomposition). When 1.0 g. V was boiled with 6.5 ml. 7.6M HI, iodine was liberated and one of the HOCH2 groups was reduced to Me to give 0.59 g. black crystalline mass, which was crystallized from absolute EtOH to yield light yellow 2,4-dimethyl-3-amino-5-(hydroxymethyl)pyridine hydriodide (VI), m. 190-6°, VI (50 mg.) was heated 5 min. with 43 mg. AgCl in 1.0 ml. H2O, the mixturefiltered to remove AgI, the filtrate acidified with 0.2 ml. 12M HCl, the acid solution treated with 23 mg. NaNO2 in 1.0 ml. H2O, and the mixture heated until N effervescence ceased (10-15 min.). The solution was vacuum-distilled to dryness, 0.5 ml. 12M HCl added to the residue, the distillation to dryness repeated, the residue extracted with 2.0 ml. absolute EtOH, cooled, and filtered. The filtrate was treated with Et2O and the separated crystals collected and dried to yield 10 mg. 4-deoxypyridoxine hydrochloride, m. 255° (decomposition). V (1.0 g.), 0.8 g. fused NaOAc, and 20 ml. Ac2O was boiled 20 min., the solvent removed by vacuum distillation, the residue extracted with 15 ml. CHCl3, the CHCl3 extract treated with C, and evaporated to give a brown oil, which was stirred with 2.0 ml. Et2O to yield 0.4 g. solid 2-methyl-3-acetamido-4,5-bis(acetoxymethyl)pyridine (VII), m. 103-1° (C6H6). VII (0.42 g.) in 12 ml. 0.5M NaOH was kept 2 hrs. at 20°, the clear solution adjusted to pH 6-7 by addition of HOAc, the solvent evaporated in vacuo, the residue extracted (Soxhlet) 24 hrs. with Me2CO, and the extract cooled to give 0.1 g. crystalline 2-methyl-3-acetamido-4,5-bis(hydroxymethyl)pyridine, m. 185-6°.

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Reference:
Pyrimidine | C4H4N2 – PubChem,
Pyrimidine – Wikipedia

Related Products of 148-51-6. The fused heterocycle is formed by combining a benzene ring with a single heterocycle, or two or more single heterocycles. Compound: 5-(hydroxymethyl)-2,4-dimethylpyridin-3-ol hydrochloride, is researched, Molecular C8H12ClNO2, CAS is 148-51-6, about Synthesis of aflatoxins by the non-growing mycelia of Aspergillus parasiticus and the effect of inhibitors. Author is Gupta, S. R.; Prasanna, H. R.; Viswanathan, L.; Venkitasubramanian, T. A..

Aflatoxins were synthesized by nongrowing mycelia of A. parasiticus, the amount and type (B or G) being dependent on the buffer used in the suspension medium. Incorporation of acetate-14C into aflatoxin was decreased by compounds that inhibit ATP production or interfere with the utilization of certain amino acids. In contrast, the specific activities of aflatoxins were increased by compounds that diverted acetate from metabolic pathways other than those leading to aflatoxin formation.

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Pyrimidine | C4H4N2 – PubChem,
Pyrimidine – Wikipedia

The reaction of an aromatic heterocycle with a proton is called a protonation. One of articles about this theory is 《Aminoalkylphenols as antimalarials. II. (Heterocyclic amino)-α-amino-ο-cresols. The synthesis of camoquin》. Authors are Burckhalter, J. H.; Tendick, F. H.; Jones, Eldon M.; Jones, Patricia A.; Holcomb, W. F.; Rawlins, A. L..The article about the compound:4-Chloro-8-methylquinolinecas:18436-73-2,SMILESS:CC1=C2N=CC=C(Cl)C2=CC=C1).Recommanded Product: 4-Chloro-8-methylquinoline. Through the article, more information about this compound (cas:18436-73-2) is conveyed.

In view of the high antimalarial activity of certain substituted α-amino-ο-cresols, earlier work (C.A. 41, 414d) has been extended to analogs containing heterocyclic nuclei. This reports the preparation of a group of 122 (heterocyclic amino)-α-amino-ο-cresols and a related group of 12 (heterocyclic amino)benzylamines, as well as the new intermediates used therein. This work has resulted in the preparation of a promising antimalarial (SN 10,751) named camoquin, as well as other compounds which are the most active 4-aminoquinoline derivatives heretofore reported in trophozoite-induced Plasmodium gallinaceum infection in the chick. Catalytic reduction of the appropriate nitrophenol in the presence of Ac2O gave these 4-acetamidophenols: 2-Cl, m. 144°, 55% yield; 2-Ph, m. 160°, 60%; and 2-acetamidophenols: 4-Cl, m. 186°, 52%; 4-Ph, m. 165°, 89%; and 4-tert-Bu, m. 170°, 79%. 2-Allyl-4-acetamidophenol, m. 93-4°, was obtained in 83% yield from the rearrangement of 4-CH2:CHCH2OC6H4NHAc. The Mannich reaction on the substituted acetamidophenols gave these 4-acetamido-α-substituted-ο-cresols: diethylamino (I), m. 135°, 82%; dibutylamino, m. 73°, 87% (picrate, m. 183-5°); dibenzylamino, m. 230°, 75%; (2-methyl-1-piperidyl) (HCl.H2O, m. 175°, 65%); 4-morpholinyl, m. 133°, 27%; [methyl(2-hydroxyethyl)amino] (HCl, m. 198°, 50%); (2-butylamino), m. 156°, 37%; (2-hydroxyethylamino) (HCl, m. 230°, 31%); the 6-allyl derivative of I, m. 86°, 58%: the 5-acetamido isomer of I (HCl, m. 210°, 33%); and these 6-acetamido-α-diethylamino-4-substituted-ο-cresols: Cl (HCl, m. 212°, 66%); tert-Bu (HCl, m. 158°, 53%); and Ph (HCl, m. 183°). Acid hydrolysis of the appropriate 4-acetamido compound gave these 4-amino-α-substituted-ο-cresols (di-HCl salts) (all m. with decomposition); diethylamino, SN 12,458, m. 218-20°, 96%; 1-piperidyl, m. 153-5°, 91%; and 4-morpholinyl, m. 259-60°, 45%. The Mannich reaction on 4-nitrophenol (A) and the reaction of the amine on 2-(chloromethyl)-4-nitrophenol (B) were used to prepare these α-substituted-4-nitro-ο-cresol HCl salts (all m. with decomposition): diethylamino, A, m. 224°, 40%; diisopropylamino, B, m. 193°, 19%; dibutylamino, B, m. 176°, 75%; diisobutylamino (free base), B, m. 113°, 43%; diisoamylamino, B, m. 132°, 32%; isopropylamino, B, m. 238°, 38%; isobutylamino, B, m. 247°, 29%; tertbutylamino, B, m. 275°, 20%; 1-piperidyl, A, m. 260°, 68%; and α-diethylamino-4-nitro-6-phenyl-ο-cresol, A, m. 125°, 21%; and 4-tert-butyl-α-diethylamino-6-nitro-ο-cresol, A, m. 103°, 50%. The method of Price and Roberts (C.A. 40, 5739.5) was used to prepare these substituted 4-chloroquinolines: 6-Me, m. 55°, 50%; 6-anilino, m. 148°, 6%; 7-EtO, m. 76°, 53%; 7-hexyloxy, a high-boiling liquid, 41%; 8-Me, m. 99°, 71%; 5,7-di-Me, m. 59°, 51%; 5,8-di-Me, m. 51°, 59%; 5-chloro-8-methoxy, m. 127°, 6%; 5-methyl-8-methoxy, m. 78°, 45%; 6,8-di-Me, m. 90°, 82%; and 6,7,8-trichloro, m. 156°, 39%. The (heterocyclic amino)-α-alkylamino-ο-cresols were prepared by minor variations of the general procedure of heating the chloroheterocycle with the amino-α-alkylamino-ο-cresols in aqueous or alc. solution on the steam bath. The latter were obtained either by acid hydrolysis of the acetamido derivatives or by catalytic reduction of the nitro derivatives and were usually condensed without isolation. The products are isolated either as the free bases or HCl salts. All the quinine equivalents (Q) reported here are based on the B4 test using P. gallinaceum in the chick. Nearly all the HCl salts m. with decomposition and are colored yellow to orange. 4-(4-Quinolylamino)-α-diethylamino-ο-cresol (II) di-HCl, SN 12,452, m. above 300°, was obtained in 48% yield and had a quinine equivalent of 3 (designated hereafter in the form Q 3). Analogs of II, substituted on the quinoline nucleus: 2-Cl (2HCl, SN 11,986, m. 248°, 30%, Q <0.07); 3-Ph, SN 11,631, m. 155°, 31%, Q 0.4; 6-MeO (2HCl, SN 10,274, m. 270°, 75%, Q 8); 6-Cl (HCl.0.5H2O, SN 11,597, m. 220°, 60%, Q 3.0); 6-Me, SN 11,559, m. 172° (2HCl, m. 238°, 56%, Q 4); 6-anilino (2HCl.H2O, SN 12,361, m. 196°, 63%, Q 0.2); 6-dimethylamino (3HCl.0.5H2O, SN 11,984, m. 235°, 73%, Q 2.5); 6-nitro (2HCl.1.5H2O, m. 210°, 63%, Q 0.8); 7-MeO (2HCl.0.5H2O, SN 11,554, m. 210°, 43%, Q 7); 7-EtO (2HCl.2H2O, SN 11,281, m. 136°, 44%, Q 7); (7-hexyloxy, SN 11,634, m. 153°, 35%, Q 0.5; Q 7); 7-Me (2HCl, SN 12,699, m. 245°, 93%, Q 9); 7-Cl (camoquin) SN 10,751, m. 208°, 86%, Q 25 (2HCl.0.5H2O, m. 243°); 2HCl.H2O, m. 183°; (2HCl.2H2O, m. 160°, 90%); 8-Cl, SN 11,551, m. 212° (2HCl.0.5H2O, m. 253°, 79%, Q 0.5); 8-MeO (2HCl.1.5H2O, SN 11,594, m. 241°, 50%, Q 0.8); 8-Me (2HCl.H2O, SN 11,601, m. 253°, 66%, Q 0.7); 5-chloro-3-Me (2HCl, SN 11,985, m. 258°, 48%, Q 0.3); 5,7-di-Cl (2HCl, SN 12,700, m. 200°, 65%, Q 3); 5,7-di-Me (2HCl, SN 11,561, m. 242°, 67%, Q 10); 5,8-di-Cl (2HCl.H2O, SN 11,596, m. 235°, 60%, Q 0.25); 5,8-di-Me (2HCl, SN 11,560, m. 249°, 80%, Q 0.6); 5-chloro-8-methoxy [2HCl, SN 12,162,(incorrectly given as 12,161 in original), m. 231°, 80%, Q 0.4]; 6-methoxy-2-Me (2HCl, SN 9223, m. 278°, 45%, Q 1.2); 6-methoxy-2-Ph (2HCl.1.75H2O, SN 11,592, m. 198°, 61%, Q 0.25); 6,7-di-Cl (2HCl, SN 12,161, m. 257°, 71.5%, Q 5); 6,7-di-MeO (2HCl, SN 13,395, m. 258°, 68%, Q 2.5); 6,7-di-Me, SN 11,990, m. 215°, 49%, Q 6; 6,8-di-Me (2HCl.H2O, SN 11,558, m. 264°, 54%, Q 0.6); 7-chloro-2-Ph (2HCl, SN 11,232, m. 260°, 41%, Q 0.3); 7-chloro-3-Ph, SN 12,228, m. 165°, Q 1; 7-chloro-3-Me (2HCl, SN 10,492, m. 260°, 64%, Q 6); 8-methoxy-5-Me (2HCl, SN 11,632, m. 210°, 90%, Q 0.6); 6,7,8-tri-Cl (2HCl, SN 11,633, m. 277°, 40%, Q <0.3); and 6-HO (2HCl, SN 11,563, m. 262°, 64%, Q 0.2) (prepared by HBr demethylation of the 6-MeO derivative). 4-(6-Methoxy-4-quinolylamino)-α-dibutylamino-ο-cresol (III) (2HCl.1.25H2O, m. 193°, 10%, Q 9); the (7-chloro-3-methyl-4-quinolylamino) analog of III (2HCl.1.5H2O, m. 177°, 43%, Q 10). 4-(6-Methoxy-4-quinolylamino)-α-1-piperidyl-ο-cresol (IV) (2HCl.0.5H2O, SN 12,038, m. 270°, 80%, Q 8); analogs of IV: (6,7-dimethoxy-4-quinolylamino) (2HCl, SN 13,413, m. 230°, 40%, Q 4); (7-chloro-3-methyl-4-quinolylamino) (2HCl, SN 12,360, m. 270°, 47%, Q 2); (6-methyl-4-quinolylamino) (2HCl, SN 12,456, m. 240°, 41%, Q 2.5). 4-(6-Methoxy-4-quinolylamino)-α-4-morpholinyl-ο-cresol (V) (2HCl, SN 11,989, m. 265°, 57%, Q 1); analogs of V: (7-chloro-3-methyl-4-quinolylamino) (2HCl, SN 12,362, m. 242°, 33%, Q 0.15); (6-methyl-4-quinolylamino), SN 12,457, m. 239°, 50%, Q 0.8. 5-(7-Chloro-4-quinolylamino)-α-diethylamino-ο-cresol, SN 13,730, m. 173°, Q 9; 6-(7-chloro-4-quinolylamino)-α-diethylamino-4-(diethylaminomethyl)-ο-cresol-1.5H2O, m. 145°, Q 5; 4-chloro-α-diethylamino-6-(6-methoxy-4-quinolylamino)-ο-cresol (2HCl, SN 12,885, m 205°, 50%, Q 0.5). 6-Chloro-4-(7-chloro-4-quinolylamino)-α-diethylamino-ο-cresol (VI), SN 13,729, m. 225°, Q 12; analogs of VI: 6-Ph (0.5H2O, m. 235°, 25%); 6-allyl, SN 11,991, m. 148°, 44%, Q 10; 6-allyl-α-1-piperidyl, SN 12,697, m. 190°, 32%, Q 4; 6-allyl-α-diallylamino, SN 13,394, m. 131°, 25%, Q 0.7. 6-Allyl-α-diethylamino-4-(6-methoxy-4-quinolylamino)-ο-cresol, SN 12,039, m. 161°, 33%, Q 7. Variations of the alkylamino group on the cresol portion of camoquin were studied: α-amino-4-(7-chloro-4-quinolylamino)-ο-cresol (VII) (2HCl.0.5H2O, SN 1603, m. 325°, 80%, Q 6); analogs of VII (substituents on the α-amino group): benzoyl (HCl, SN. 11,557, m. 289°, 80%, Q 0.15); Et (2HCl, m. 280°, Q 40, 4% conversion, prepared by the Mannich reaction of EtNH2, (HCHO)x, and 7-chloro-4-(4-hydroxyanilino)quinoline (HCl, m. above 320°, 94%)); Pr(2HCl.0.5H2O, m. 244°, 24%, Q 30); iso-Pr (2HCl, m. 287° 50%, Q 40); Bu (2HCl, m. 254°, 6%, Q 30); sec-Bu (2HCl.H2O, m. 252°, 3%, Q 50); iso-Bu (2HCl, m. 256°, 65%, Q 75); tert-Bu (2HCl, m. 285°, 36%, Q 40); Am (2HCl, m. 266°, 15%, Q 50); (1-methylbutyl 2HCl, m. 231°, 22%, Q 40); iso-Am (2HCl, m. 279°, 20%, Q 50); hexyl (2HCl, m. 280°, 56%, Q 25); (2-ethylbutyl (2HCl, m. 263°, 15%, Q 50)); heptyl (2HCl, m. 278°, 29%, Q 15); octyl, m. 150°, 15%, Q 2.5; allyl (2HCl, m. 257°, 3%, Q 20); 1-methylallyl (2HCl.1.75H2O, m. 95°); cyclohexyl (2HCl.0.25H2O, m. 252°, 30%, Q 30); 2-hydroxyethyl (2HCl.H2O, m. 182°, 15%, Q 3); 2-methoxyethyl (2HCl, m. 271°, Q 25); benzyl (2HCl, m. 270°, Q 16); (α-methylphenethyl) (2HCl.0.25H2O, m. 243°, 31%, Q 25); di-Me (2HCl, m. 290°, 85%, Q 6); N-ethyl-N-butyl(2HCl, m. 240°, 65%, Q 30); di-Pr, SN 13,835, m. 181°, 11%, Q 25; di-Bu, SN 14,105, m. 164°, 20%, Q 35; diiso-Bu (0.5H2O, m. 166°, 38%); diiso-Am (0.5H2O, m. 135°); dihexyl (2HCl, m. 220°, 40%, Q 0.5); diheptyl (2HCl, m. 203°, 52%, Q 1); dioctyl (2HCl, m. 192°, 46%, Q 0.2); bis(2-ethylhexyl) (2HCl.H2O, m. 154°, 1%, Q 3); methyl(2-hydroxyethyl) (2HCl, SN 12,363, m. 250°, 63%, Q 3); butyl(2-hydroxyethyl), SN 14,824, m. 149°, 22%, Q 12; bis(2-hydroxyethyl), m. 193°, 25%, Q 0.6; dibenzyl (2HCl, m. 235°, 74%, Q 2.5); N-methyl-N-Ph (H2O, m. 140°, 39%, Q 0.07); N-ethyl-N-Ph, m. 131°, 54%, Q <0.05. Further analogs of VII: α-1-piperidyl (2HCl.2.5H2O, SN 11,636, m. 302°, 77.5%, Q 25); α-(2-methyl-1-piperidyl) (2HCl, SN 12,357, m. 288°, 66%, Q 20); α-4-morpholinyl (2HCl, SN 11,987, m. 292°, 60-5%, Q 4). Compounds containing heterocyclic nuclei other than the 4-quinolyl include the following 4-(heterocyclic amino)-α-diethylamino-ο-cresols: 9-acridyl (2HCl, SN 12,356, m. 265°, 45%, Q 1.5); (3-chloro-9-acridyl) (2HCl, SN 12,355, m. 267°, 52%, Q 3); (4-methoxy-9-acridyl) (2HCl, SN 12,164, m. 245°, 50%, Q 0.15); (3-chloro-5-methyl-9-acridyl) (2HCl, SN 11,988, m. 275°, 40%, Q 0.25); 2-quinolyl (2HCl, SN 9559, m. 230°, 48%, Q 0.12); (6-methoxy-2-quinolyl) (2HCl, SN 11,537, m. 237°, 20.5%, Q 0.7); (5-nitro-2-quinolyl) (2HCl, SN 9307, m. 245°, 33%, Q <0.07); (2-amino-4-pyrimidyl) (2HCl, SN 9591, m. 258°, 41%, Q 1.1); [2-(1-piperidyl)-4-pyrimidyl], SN 10,177, m. 156°, 31%, Q 0.4; (2-amino-6-methyl-4-pyrimidyl) (2HCl, m. 245°, 55%); (4-methoxy-2-benzothiazolyl) (2HCl, SN 11,189, m. 163°, 47%, Q <0.07); (6-chloro-2-methoxy-9-acridyl) (VIII), SN 8617, m. 175°, 50% (H2O, m. 117°; 2HCl, m. 280°, 76%, Q 4; 2HCl.2H2O, m. 180°); analogs of VIII: α-(ethylbutylamino) (2HCl, m. 252°, 36%, Q 5); α-dibutylamino (2HCl, SN 11,599, m. 246°, 69%, Q 2.5); α-diallylamino, SN 13,163, m. 158°, 16%, Q 0.5; α-dihexylamino (2HCl, m. 254°, 23%, Q 0.4); α-dioctylamino (2HCl, m. 285°, 20%, Q <0.06); α-1-piperidylamino (2HCl, SN 11,536, m. 287°, Q 0.6); α-hexylamino (2HCl.H2O, m. 226°, 7%, Q 1); α-(2-hydroxyethylamino) (2HCl.H2O, SN 11,233, m. 284°, 90%, Q 0.2); α-benzamido (HCl.0.5H2O, SN 11,589, m. 294°, 95%, Q <0.04). 5-(6-Chloro-2-methoxy-9-acridylamino)-α-diethylamino-ο-cresol (2HCl.0.5H2O, SN 9614, m. 237°, 50%, Q 1); 4-tert-butyl-6-(6-chloro-2-methoxy-9-acridylamino)-α-diethylamino-ο-cresol (IX) (2HCl, SN 11,544, m. 271°, 98%, Q 0.6); 4-Ph analog of IX (2HCl, SN 11,553, m. 274°, 84%, Q 0.5); 4-diethylaminomethyl analog of IX (3HCl.H2O, SN 11,550, m. 257°, 73%, Q 2); 6-allyl-4-(6-chloro-2-methoxy-9-acridylamino)-α-diethylaminο-ο-cresol (X) (2HCl, SN 11,234, m. 233°, 65%, Q 3); α-diallylamino analog of X (2HCl.H2O, SN 13,399, m. 188°, 12%, Q 0.3); and α-1-piperidyl analog of X, SN 12,701, m. 164°, 44%, Q 2. A series of nitrobenzylamines was prepared by condensation of the nitrobenzyl chloride with the amine in absolute EtOH. During the course of this work, 2-(chloromethyl)-4-nitrophenetole,m. 72-5°, was obtained in 75% yield from the chloromethylation of 4-nitrophenetole. The nitrobenzylamines were reduced catalytically in absolute EtOH and the resulting aminobenzylamines without isolation were condensed with the chloroheterocycle. Thus were obtained: N,N-diethyl-3-nitrobenzylamine, b6 145-8°, 60%; 4-nitro isomer (XI) (HCl, m. 162°, 45%); analogs of XI: N,N-di-Pr (HCl, m. 138°, 68%); N-monoisopropyl (HCl, m. 232°, 82%); N-monoisobutyl (HCl, m. 214°, 64%). N,N-Diethyl-5-nitro-2-methoxybenzylamine (XII) (HCl, m. 178°, 72%); analogs of XII: N-monoisobutyl (HCl, m. 176°, 63%); N-monoamyl (HCl salt could not be separated from an impurity of AmNH2.HCl). N,N-Diethyl-5-nitro-2-ethoxybenzylamine (HCl, m. 182°, 56%). 3-(7-Chloro-4-quinolylamino)-N,N-diethylbenzylamine (2HCl.2H2O, SN 11,590, m. 128° (all these HCl salts m. with decomposition), 85%, Q 1); 4-(7-chloro-4-quinolylamino)-N,N-diethylbenzylamine (XIII) (2HCl, SN 12,455, m. 261°, Q 4); N,N-di-Pr analog of XIII (2HCl, m. 255°, 60%, Q 4); the N-monoisopropyl analog of XIII (2HCl salt, m. 303°, 23%, Q 10); N-monoisobutyl analog of XIII (2HCl.H2O, m. 288°, 76%); 5-(7-chloro-4-quinolylamino)-N,N-diethyl-2-methoxybenzylamine (XIV), m. 203°, 64%, Q 25; N-monoisobutyl analog of XIV (2HCl.0.25H2O, m. 194°, 76%, Q 17); N-monoamyl analog of XIV (2HCl, m. 288°, 42%, Q 15); 2-ethoxy analog of XIV (2HCl.2H2O, m. 247°, 73%, Q 8); 3-(6-chloro-2-methoxy-9-acridylamino)-N,N-diethylbenzylamine (XV) (2HCl.0.75H2O, SN 10,984, m. 278°, 55%, Q 0.5); the 4-substituted benzyl isomer of XV (2HCl.0.5H2O, SN 10,028, m. 260°, 92%, Q 0.4); and 5-(6-chloro-2-methoxy-9-acridylamino)-2-methoxy-N,N-diethylbenzylamine (2HCl.0.5H2O, m. 212°, 67%, Q 3). 6-Chloro-9-(4-hydroxyanilino)-2-methoxyacridine, m. 266° (decomposition) (HCl, orange, m. above 300°, prepared in 98% yield from p-NH2C6H4OH and 6,9-dichloro-2-methoxyacridine on the steam bath), failed to undergo the usual Mannich reaction. Failure of this reaction led to the development of the method of synthesis used for all of the heterocyclic derivatives reported in this paper. I hope my short article helps more people learn about this compound(4-Chloro-8-methylquinoline)Recommanded Product: 4-Chloro-8-methylquinoline. Apart from the compound(18436-73-2), you can read my other articles to know other related compounds.

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Pyrimidine | C4H4N2 – PubChem,
Pyrimidine – Wikipedia

The reaction of an aromatic heterocycle with a proton is called a protonation. One of articles about this theory is 《Nicotinamide inhibitors》. Authors are Cote, L.; Oleson, J. J.; Williams, J. H..The article about the compound:5-(hydroxymethyl)-2,4-dimethylpyridin-3-ol hydrochloridecas:148-51-6,SMILESS:OC1=C(C)C(CO)=CN=C1C.[H]Cl).Application of 148-51-6. Through the article, more information about this compound (cas:148-51-6) is conveyed.

3,5-Pyridinedicarboxylic acid, 2,3-pyrazinedicarboxylic acid, 4-methyl-2,3-pyridinedicarboxylic acid, 2,3-pyrazinedicarboxamide, 3-bromopyridine, 2-methyl-3-amino-4,5-bis(aminomethyl)pyridine, N-thiazolylpyrazinamide, N,N-dimethylpyrazinamide, N-methylpyrazinamide, N-pyrazinylthiourea, N-(hydroxymethyl)pyrazinamide, diethyl N-pyrazinoylaspartate, N-pyrazinoylpiperidine, N-isobutylpyrazinamide, N-(2-pyridyl)pyrazinamide, N-(3-pyridyl)pyrazinamide, N-phenylpyrazinamide, N-hexadecylpyrazinamide, 3-pyrazinoylaminoquinoline, N-(2-hydroxyethyl)-N’-pyrazinoylethylenediamine, 3-hydroxy-6-pyridazinecarboxamide, 2-pyrrolidone-5-carboxamide, 1-thiazolyl-2-pyrrolecarboxamide, desoxypyridoxine, salicylamide, furoic acid, furanilide, pyrazinohydrazide, 1-carbethoxy-4(1,2-dicarbethoxyethyl)piperazine, N-(p-methoxybenzyl)pyrazinamide, pyrazinohydroxamic acid, and Et N-pyrazinoyl-β-alanate had no anti-nicotinamide activity when tested against Lactobacillus arabinosus and none stimulated growth. Pyrazinamide, pyrazinoic acid, and 2-sulfanilamido-5-nitropyridine reversibly inhibited the action of nicotinamide on the organism. Pyrazinamide was not a nicotinamide antagonist for rats or chicks.

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Pyrimidine | C4H4N2 – PubChem,
Pyrimidine – Wikipedia

Safety of 5-(hydroxymethyl)-2,4-dimethylpyridin-3-ol hydrochloride. 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-(hydroxymethyl)-2,4-dimethylpyridin-3-ol hydrochloride, is researched, Molecular C8H12ClNO2, CAS is 148-51-6, about Studies on anticoccidial agents. Part VI. Modification at the 2-position of 4-deoxypyridoxol and α4-norpyridoxol. Author is Morisawa, Yasuhiro; Kataoka, Mitsuru; Sakamoto, Toshiaki; Saito, Fumiko.

The title derivatives I (R = Me, R1 = Et; R = R1 = H; R = H, R1 = HOCH2; R = H, R1 = MeO) were prepared Thus, I (R = H, R1 = Me) was treated with PhCH2Cl and the product oxidized and treated with Ac2O to give 2-(acetoxymethyl)-3-(benzyloxy)-5-(benzyloxymethyl)pyridine, which was hydrolyzed and hydrogenated to give I (R = H, R1 = HOCH2). At 200 ppm I (R = H, R1 = MeO) had anticoccidial activity against Eimeria acervulina.

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Pyrimidine | C4H4N2 – PubChem,
Pyrimidine – Wikipedia

The preparation of ester heterocycles mostly uses heteroatoms as nucleophilic sites, which are achieved by intramolecular substitution or addition reactions. Compound: (S)-3-Methoxypyrrolidine( cas:120099-61-8 ) is researched.Reference of (S)-3-Methoxypyrrolidine.Sun, Chang’an; Fang, Lei; Zhang, Xiaobing; Gao, Peng; Gou, Shaohua published the article 《Novel 7-formyl-naphthyridyl-ureas derivatives as potential selective FGFR4 inhibitors: Design, synthesis, and biological activity studies》 about this compound( cas:120099-61-8 ) in Bioorganic & Medicinal Chemistry. Keywords: antitumor FGFR4 selectivity pharmacokinetic profile; Antitumor; FGFR4; Pharmacokinetic profile; Selectivity. Let’s learn more about this compound (cas:120099-61-8).

Total twenty-five 7-formyl-naphthyridyl-urea derivatives were designed, synthesized and evaluated for their inhibition of FGFR4 kinase and antitumor activity. The pharmacol. data indicated that most of the tested compounds showed high selectivity towards FGFR4 kinase and could significantly inhibit FGFR4 and the tumor cells lines with the high expression of FGFR4. In particular, compounds 6f, 6g, 6h, 6l, 6m and 6s showed a good performance in pharmacokinetic tests. When tested in mice, the representative compound 6f was found to have good pharmacokinetic parameters, low toxicity, and better tumor inhibiting activity in vivo.

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Pyrimidine | C4H4N2 – PubChem,
Pyrimidine – Wikipedia