Tag: M.W=100-150

Ta-Shma, Rachel; Torres, Avital; Chevion, Mordechai; Breuer, Eli; Quntar, Abed Al Aziz; Enk, Claes D.; Srebnik, Morris published the artcile< An autoxidation study of C2 substituted pyrimidine amino reductones>, Safety of 5-Hydroxypyrimidin-4(3H)-one, the main research area is autoxidation pyrimidine amino reductone.

Three pyrimidine derivatives I (R = Me, H, SMe) , differing from isouramil(I; R = OH) and divicine (I; R = NH2) at C2, were synthesized and their autoxidation rates measured spectrophotometrically. The autoxidation rates of all five pyrimidines were correlated with σ p + values (rho = -1.28, r2 = 0.949).

Tetrahedron published new progress about Autoxidation. 15837-41-9 belongs to class pyrimidines, and the molecular formula is C4H4N2O2, Safety of 5-Hydroxypyrimidin-4(3H)-one.

Referemce:
Pyrimidine | C4H4N2 – PubChem,
Pyrimidine – Wikipedia

Gershon, Herman; Parmegiani, Raulo published the artcile< Antifungal activity of ring poly-chlorinated pyrimidines: structure activity relations>, Formula: C4H2Cl2N2, the main research area is DRUG RESISTANCE, MICROBIAL; FUNGICIDES; PYRIMIDINES.

A total of 48 ring chlorinated pyrimidines were screened against strains of 5 fungi by the disk-plate method, liquid culture, and for activity of the vapors of the compounds Correlations of the results obtained by the 3 methods were made, and structure:activity relations were discussed. The outstanding members of this series were found to be 2,4,5-trichloropyrimidine, 4,5,6-trichloropyrimidine, and 2-chloro-methyl-4,5,6-trichloropyrimidine.

Applied Microbiology published new progress about 6554-61-6. 6554-61-6 belongs to class pyrimidines, and the molecular formula is C4H2Cl2N2, Formula: C4H2Cl2N2.

Referemce:
Pyrimidine | C4H4N2 – PubChem,
Pyrimidine – Wikipedia

Bruening, Fabian; Lovelle, Lucie E. published the artcile< Highly regioselective organocatalytic SNAr amination of 2,4-dichloropyrimidine and related heteroaryl chlorides>, Synthetic Route of 6554-61-6, the main research area is heteroaryl chloride cyclic amine amination; aminopyrimidine regioselective preparation.

A highly efficient and regioselective method for the SNAr amination of 2,4-dichloropyrimidine with oxazolidin-2-one and related weakly nucleophilic amines, using sodium sulfinate and tetrabutylammonium bromide as catalysts, is disclosed. This strategy facilitates the synthesis of various aminopyrimidines, e.g., I, in a regio- and chemoselective manner. This approach was successfully used for the amination of various activated N-heteroaromatic substrates.

European Journal of Organic Chemistry published new progress about Amination (SNAr). 6554-61-6 belongs to class pyrimidines, and the molecular formula is C4H2Cl2N2, Synthetic Route of 6554-61-6.

Referemce:
Pyrimidine | C4H4N2 – PubChem,
Pyrimidine – Wikipedia

von Angerer, S. published the artcile< Product class 12: pyrimidines>, HPLC of Formula: 6554-61-6, the main research area is review pyrimidine preparation cyclization ring transformation aromatization.

A review. Methods for preparing pyrimidines are reviewed including cyclization, ring transformation, aromatization and substituent modification.

Science of Synthesis published new progress about Aromatization. 6554-61-6 belongs to class pyrimidines, and the molecular formula is C4H2Cl2N2, HPLC of Formula: 6554-61-6.

Referemce:
Pyrimidine | C4H4N2 – PubChem,
Pyrimidine – Wikipedia

Miyakawa, Shin; Cleaves, H. James; Miller, Stanley L. published the artcile< The Cold Origin of Life: B. Implications Based on Pyrimidines and Purines Produced From Frozen Ammonium Cyanide Solutions>, Application In Synthesis of 15837-41-9, the main research area is ammonium cyanide purine pyrimidine life origin.

A wide variety of pyrimidines and purines were identified as products of a dilute frozen ammonium cyanide solution that had been held at -78° for 27 yr. This demonstrates that both pyrimidines and purines could have been produced on the primitive earth in a short time by eutectic concentration of HCN, even though the concentration of HCN in the primitive ocean may have been low. We suggest that eutectic freezing is the most plausible demonstrated mechanism by which HCN polymerizations could have produced biol. important prebiotic compounds

Origins of Life and Evolution of the Biosphere published new progress about Freezing (eutectic). 15837-41-9 belongs to class pyrimidines, and the molecular formula is C4H4N2O2, Application In Synthesis of 15837-41-9.

Referemce:
Pyrimidine | C4H4N2 – PubChem,
Pyrimidine – Wikipedia

Chang, P.; Chiang, Kwei-Che published the artcile< 5-Hydroxypyrimidines. II. Synthesis of 2-substituted 4,5-dihydroxypyrimidines>, Recommanded Product: 5-Hydroxypyrimidin-4(3H)-one, the main research area is .

V reacts with HCO2Et gives PhCH2OCH(CHO)CO2Et (X), which condenses with various amidines [RC(:NH)NH2] to 2-R-substituted-5-benzyloxy-4-hydroxypyridines (XI, R), converted by H in the presence of Pd to XII(R). [N:CR.N:C(OH).C(OCH2Ph):CH (XI) and N:CR.N:C(OH).C(OH):CH (XII) are designated by the Roman numeral, followed by R.] XI and XII are stable, high-melting solids, the latter giving the same pos. color tests as III (except that the FeCl3-NH3 colors are different), and reducing 2,6-dichlorophenolindophenol rapidly. When a suspension of NaOMe (from 2.8 g. powd. Na and 10 ml. anhydrous MeOH in 100 ml. dry Et2O) is treated with a 20 g. V and 14 g. HCO2Et with stirring at room temperature during 2 hrs., and stirred 4 hrs. more, the mixture turns from light to orange yellow and a white amorphous solid seps.; after 2 days, 40 ml. H2O, then 12 ml. dilute HOAc are added, the Et2O layer is dried, distilled, and the fraction b1 110-33° or b4 140-53° redistilled, giving 79% X, b1 128-30°, b4 149°, n20D 1.5200, which turns blue-violet with FeCl3. No X is obtained with powd. Na used directly, and solutions of Na in MeOH or EtOH give only 15-20% X. Urea (1.2 g.) added to 0.92 g. Na in 30 ml. anhydrous EtOH, 4.5 g. X stirred in during 1 hr. at room temperature, the mixture heated 4 hrs. on steam, cooled, the solids dissolved by addition of H2O, and the mixture acidified with 6 ml. HOAc gives 70% XI(OH), m. 283° (20% aqueous HOAc)(decomposition). X and IX at room temperature give 78% XI(NH2), m. 243° (20% aqueous HOAc) (decomposition); X and MeC(:NH)NH2.HCl (at 60°) give 93% XI(Me), fine needles from H2O, m. 186°; and NH2CSNH2 [or NH2C(:NH)SEt.HBr, loss of Et occurring during the condensation] and X (at room temperature) give 92% XI(SH), long needles from EtOH, m. 225-6° (decomposition). XI(SEt), m. 189-90°, is obtained by adding 2 ml. EtBr to 0.5 g. XI(SH) in 15 ml. 10% NaOH, heating 3 hrs. on steam, cooling, acidifying with dilute HCl, and recrystallizing the precipitate from EtOH, yield 53.6%. Boiling XI(SH or SEt) in dilute NH4OH with Raney Ni yields XI(H) [83% from XI(SH)], needles, m. 98-9°. Hydrogenation of XI(OH) (0.5 g.) in 30 ml. 5% NaOH containing Pd at room temperature and atm. pressure required 30 min.; acidification of the filtered mixture precipitated XII(OH) (isobarbituric acid), m. 310° (decomposition) (from H2O), yield quant.; addition of XII(OH) to 5% AgNO3 results in immediate precipitation of black metallic Ag. Hydrogenation of XI(NH2) (in HCO2H) gives a quant. yield of XII(NH2) unmelted at 340°. Similarly, XI(Me) is converted to XII(Me), m. 312-13° (decomposition), and XI(H) is reduced to XII(H), m. 268-9° (decomposition). While XII(OH) (like III) gives a blue-violet color on treatment with 1% FeCl3 and a few drops of concentrated NH4OH, XII (R = NH2, H, and Me) give brown colors.

Scientia Sinica (English Edition) published new progress about Color reaction. 15837-41-9 belongs to class pyrimidines, and the molecular formula is C4H4N2O2, Recommanded Product: 5-Hydroxypyrimidin-4(3H)-one.

Referemce:
Pyrimidine | C4H4N2 – PubChem,
Pyrimidine – Wikipedia

Chang, P.; Wu, Shao-Lan published the artcile< 5-Hydroxypyrimidines. I. Synthesis of 2-substituted 4,5,6-trihydroxypyrimidines>, Application In Synthesis of 15837-41-9, the main research area is .

Et benzyloxymalonate (I) condenses with various amidine derivatives to 2-substituted 5-benzyloxy-4,6-dihydroxypyrimidines (II, R, PhCH2O), converted to the corresponding 4,5,6-(HO)3 analogs (III, R, HO) by Pd-catalyzed hydrogenation; Raney Ni converts II (SH, PhCH2O) to II (H, PhCH2O) the PhCH2 group being unaffected. [In this abstract N:CR.N:C(OH).CR’:COH (II) and N:CR.N:C(OH).C(OH):COH (III) are designated by the Roman numeral, followed by R and R’, and by R, resp.] All III give pos. color reactions with FeCl3-NH4OH (blue-violet), Ba(OH)2 (violet-blue), and phosphomolybdic acid (deep blue), and decolorize (reduce) 2,6-dichlorophenolindophenol at various rates. PhCH2OCH2CO2H (IV) [20 g., b0.4 142-4°, prepared in 84% yield according to Fischer and Gohlke (C.A. 28, 1337) except that the mixture is acidified immediately with cooling instead of after removing the large excess of PhCH2OH], refluxed 2 hrs. with 25 ml. EtOH, 30 ml. C6H6, and 2 ml. concentrated H2SO4, the volatiles distilled, the residue neutralized with aqueous Na2CO3, extracted with Et2O, and the extract dried and distilled gives 74% PhCH2OCH2CO2Et (V), b8 135-7°, also prepared via PhCH2OCH2CN (VI); 50 ml. each of MeOH and 40% aqueous HCHO ice-cooled, stirred with 32.5 g. KCN until homogeneous, 57 g. PhCH2Cl in 100 ml. MeOH slowly stirred in at room temperature, the mixture heated 4 hrs. at 40°, cooled, poured into 100 ml. H2O, and the organic layer worked up give some PhCH2Cl, a small unidentified fraction, b. 110-25°, n25D 1.5073, d2020 1.081, and crude VI, b. 130-45°, redistilled to give 58-60% purified VI, b14 136-7°, which becomes progressively yellower on exposure to air, analyzes 1% low for N, and always leaves on redistillation a black residue shown to contain PhCH2OCONH2 [also prepared (m. 90.5-1.0°) by mixing 1 g. V with 5 ml. concentrated NH4OH and recrystallizing the product from hot H2O], and IV, b6 180°. Redistilled VI (74 g.) treated at 0° with 55 g. 95% EtOH previously saturated with HCl (33 g.), refluxed 4 hrs., yields 70% V, b5 125-6°, b10 138°, b12 145-6°; if the crude VI is only freed of more volatile materials and alcoholized undistd., 48% V (based on unrecovered PhCH2Cl) is obtained. No IV was obtained by dissolving 9.2 g. Na in 100 ml. hot PhCH2OH, adding 46.6 g. ClCH2CO2Na, and heating 5 hrs. at 160°, nor was VI identified among the products of reaction of 18 g. CuCN in 40 ml. anhydrous Et2O with 35 g. PhCH2OCH2Cl at 30°. Na (6.9 g.) in 90 ml. anhydrous EtOH treated with 68.7 g. (CO2Et)2 at room temperature, stirred 10 min., 58.2 g. V added dropwise, the mixture heated 4-5 hrs. at 50-60°, kept overnight at room temperature, acidified with glacial HOAc, poured into H2O, extracted with Et2O, the extracts dried, freed of Et2O, the residual liquid heated at 180-200°/15-20 mm. until evolution of CO ceases (2-3 hrs.), and the residue distilled gives 49% I, b0.4 127-9°, n20D 1.4900. I with concentrated NH4OH gives PhCH2OCH(CONH2)2, needles from H2O, m. 222°. Na (1.4 g.) in 30 ml. anhydrous EtOH treated with 16 g. I, then 8 g. EtBr, refluxed until neutral to litmus, cooled, poured into H2O, extracted with Et2O, and the extract dried and distilled gives 56% PhCH2OCEt(CO2Et)2 (VII), b0.4 133-4°, n20D 1.4862. Urea (3 g.) dissolved in a solution of 1.5 g. Na in 40 ml. anhydrous EtOH, 9 g. I added, the mixture refluxed 6 hrs. at 105-7°, cooled, the Na salt dissolved in a small amount of H2O, and the solution acidified with concentrated HCl precipitates 67% II (OH, PhCH2O), needles from H2O or 50% aqueous EtOH, decompose 202-3° after turning red at 180°. II (OH, PhCH2O) also gradually reddens on standing exposed to air, recrystallization of the red material from H2O yielding a colorless, air-stable, more H2O-soluble product (VIII), decompose 202-55°, believed to be II(OH, HO). VII condenses with NH2CONH2 in the presence of NaOEt to give 20% II(OH, Et), needles from EtOH, m 186-7°, stable in air. Similarly, 6.6 g. I, 3 g. NH2C(:NH)NH2.HNO3 (IX), and 1.2 g. Na in 30 ml. EtOH react (6 hrs.) to give 83% II(NH2, PhCH2O), needles from EtOH, m. 220-1° (decomposition); which also reddens in air, but is stabilized by recrystallization VII condenses with IX to 68% II(NH2, Et), recrystallized from EtOH, stable, m. 308-9° (decomposition). I condenses similarly with CH3C(:NH)NH2.HCl to give 54% II(Me, PhCH2O), needles from H2O, m. 263-4° (decomposition); with NH2CSNH2 to give 78% II(SH, PhCH2O), needles from EtOH, m. 140-1° (decomposition), reddens in air; and with NH2C(:NH)SEt.HBr to give 51% II(SEt, PhCH2O), needles from EtOH, m. 164-5° (decomposition), turning red-violet in air. II(SH, PhCH2O) (1 g.) in hot dilute NH4OH (2 ml. concentrated NH4OH cut with 16 ml. H2O) is heated 2 hrs. on steam with 3 g. Raney Ni, the mixture filtered hot, concentrated until crystals appear, and cooled gives 86% II(H, PhCH2O), m. 223-4° (decomposes) (from H2O). II(OH, PhCH2O) (1 g.) in 60 ml. HCO2H shaken with 0.1 g. PdO and H at room temperature and atm. pressure until 1 mol. equivalent H is taken up (20 min.) and the filtered mixture concentrated gives 98% dialuric acid (III, HO), m. 213-14° (decomposition) after reddening from 180°, readily air-oxidized. Similarly, II (NH2, PhCH2O) gives a quant. yield of III(NH2), which turns brown at 293-4° but remains solid up to 320°; this substance also turns red in air. Hydrogenation of II(Me, PhCH2O) in glacial HOAc gives 100% III(Me), stable in air, blackens at 290-1°, but is not molten at 320°. Similarly, II(H, PhCH2O) is reduced to III(H), air-stable, blackens at 284-5°, but does not m. at 320°.

Scientia Sinica (English Edition) published new progress about Color reaction. 15837-41-9 belongs to class pyrimidines, and the molecular formula is C4H4N2O2, Application In Synthesis of 15837-41-9.

Referemce:
Pyrimidine | C4H4N2 – PubChem,
Pyrimidine – Wikipedia

Borgesde Melo, Eduardo; Ferreira, Marcia Miguel Castro published the artcile< Nonequivalent Effects of Diverse LogP Algorithms in Three QSAR Studies>, Quality Control of 15837-41-9, the main research area is nonequivalent algorithm QSAR.

Despite of the availability and facility of accessing several algorithms for calculation of LogP in QSA(P)R studies, articles typically do not describe the selection procedure for the method used. Therefore, three studies to verify the influence of different LogP algorithms on building QSAR models were performed. Two QSAR data sets from the literature (42 tricyclic phtalimide inhibitors of HIV-integrase and 46 TIBO derivatives inhibitors of HIV-reverse transcriptase) were used together with LogP calculated by thirteen algorithms, and several regression models were constructed and compared. A new QSAR study for 4,5-dihydroxypyrimidine carboxamides inhibitors of HIV-1 integrase was also performed. The explained and predicted variance, results from external validation, leave-N-out cross-validation and y-randomization test were analyzed for all models from the three data sets. Despite the same physicochem. meaning, LogP’s calculated by distinct methods may show different levels of contribution to the model. This observation comes out from the comparison of validated models. These results indicate that the arbitrary choice of one specific algorithm for LogP calculation, as is usual in QSA(P)R studies, does not necessarily lead to the highest quality model for the analyzed data set.

QSAR & Combinatorial Science published new progress about Algorithm. 15837-41-9 belongs to class pyrimidines, and the molecular formula is C4H4N2O2, Quality Control of 15837-41-9.

Referemce:
Pyrimidine | C4H4N2 – PubChem,
Pyrimidine – Wikipedia

Ognyanov, Vassil I.; Balan, Chenera; Bannon, Anthony W.; Bo, Yunxin; Dominguez, Celia; Fotsch, Christopher; Gore, Vijay K.; Klionsky, Lana; Ma, Vu V.; Qian, Yi-Xin; Tamir, Rami; Wang, Xianghong; Xi, Ning; Xu, Shimin; Zhu, Dawn; Gavva, Narender R.; Treanor, James J. S.; Norman, Mark H. published the artcile< Design of potent, orally available antagonists of the transient receptor potential vanilloid 1. Structure-activity relationships of 2-piperazin-1-yl-1H-benzimidazoles>, Category: pyrimidines, the main research area is benzimidazole piperazinyl preparation transient receptor potential vanilloid antagonist antihyperalgesic.

The vanilloid receptor-1 (VR1 or TRPV1) is a membrane-bound, nonselective cation channel that is predominantly expressed by peripheral neurons sensing painful stimuli. TRPV1 antagonists produce antihyperalgesic effects in animal models of inflammatory and neuropathic pain. The synthesis and the structure-activity relationships of a series of 2-(4-pyridin-2-ylpiperazin-1-yl)-1H-benzo[d]imidazoles I [R1 = H, Me3SiCH2CH2OCH2, PhCH2; R2 = F, Cl, Br, F3C, Me, CN, Me3C, MeO2C, etc.; R3 = H, 4-(2-thiazolyl), 4-(4-pyridyl), 5-(4-F3CC6H4), etc.; R4 = H, Me; R5 = H, H2N, MeCHOH, H2C:CH, etc.; R6 = H, Cl, F3C, etc.] and analogs as novel TRPV1 antagonists have been described. I [R1 = H; R2 = F3C; R3 = 4-(3,4,5-F3C6H2); R4 = (R)-Me; R5 = HOCH2CHOH; R6 = Cl; (II)] was among the most potent analogs in this series. This compound was orally bioavailable in rats and was efficacious in blocking capsaicin-induced flinch in rats in a dose-dependent manner. II also reversed thermal hyperalgesia in a model of inflammatory pain, which was induced by complete Freund’s adjuvant (CFA).

Journal of Medicinal Chemistry published new progress about Analgesics. 6554-61-6 belongs to class pyrimidines, and the molecular formula is C4H2Cl2N2, Category: pyrimidines.

Referemce:
Pyrimidine | C4H4N2 – PubChem,
Pyrimidine – Wikipedia

Krasavin, Mikhail; Mujumdar, Prashant; Parchinsky, Vladislav; Vinogradova, Tatiana; Manicheva, Olga; Dogonadze, Marine published the artcile< Library of diversely substituted 2-(quinolin-4-yl)imidazolines delivers novel non-cytotoxic antitubercular leads>, COA of Formula: C4H2Cl2N2, the main research area is quinolinylimidazoline derivative preparation antitubercular antimalarial; 2-imidazoline; Antimalarial; Buchwald–Hartwig; antitubercular; microwave chemistry; non-cytotoxic; quinoline.

A novel library based on quinolin-4-ylimidazoline core was designed to incorporate a general quinoline antimicrobial pharmacophore. A synthesis of the well-characterized library of 36 compounds was achieved using the Pd-catalyzed Buchwald-Hartwig-type imidazoline arylation chem. developed earlier. Compounds were tested for biol. activity and were found to possess no antimalarial activity. However, the library delivered two promising antitubercular leads, which are non-cytotoxic and can be further optimized with respect to antimycobacterial potency.

Journal of Enzyme Inhibition and Medicinal Chemistry published new progress about Antimalarials. 6554-61-6 belongs to class pyrimidines, and the molecular formula is C4H2Cl2N2, COA of Formula: C4H2Cl2N2.

Referemce:
Pyrimidine | C4H4N2 – PubChem,
Pyrimidine – Wikipedia