Tag: M.W:100-200

The reaction of an aromatic heterocycle with a proton is called a protonation. One of articles about this theory is 《Attempted synthesis of polypeptides by condensation of amino acid and peptide esters I》. Authors are Brockmann, Hans; Musso, Hans.The article about the compound:2-Bromo-3-methoxypropanoic acidcas:65090-78-0,SMILESS:O=C(O)C(Br)COC).SDS of cas: 65090-78-0. Through the article, more information about this compound (cas:65090-78-0) is conveyed.

Methods are given for fractionation of the amino acid, peptides, and their Me esters in the cases of glycine (I), alanine (II), and serine (III). After several months at room temperature, either dry or in various solvents, I Me ester gave mainly tetraglycine Me ester (IV) and I anhydride (V), as well as some pentaglycine Me ester and hexaglycine Me ester. In H2O, MeOH, or EtOH the product was mostly V. Condensation of II Me ester, either dry or in MeOH, gave mainly II anhydride. In H2O hydrolysis to II occurred. III Me ester (VI), dry or in various solvents at 20°, gave after several weeks mainly III anhydride (VII), with some III and unchanged VI. Vacuum distillation of VI gave VII, III, MeOH, NH3, H2O, II, and traces of III peptides. VI was kept in vacuo at 20°, warmed 1 h. to 75°, refluxed 10 h., or kept at 20° in pyridine or HOAc. In each case the major product was VII, and III, VI, and some III peptides were present. IV kept at various temperatures, dry or in H2O or MeOH, was either unchanged, hydrolyzed, or converted largely to unidentified products.

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Pyrimidine | C4H4N2 – PubChem,
Pyrimidine – Wikipedia

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: 148-51-6, is researched, SMILESS is OC1=C(C)C(CO)=CN=C1C.[H]Cl, Molecular C8H12ClNO2Journal, Pathologica called Influence of some vitamin B6 antimetabolites on the induction and development of solid IRE reticulosarcoma in rats. I. Deoxypyridoxine, Author is La Pesa, M.; Grimaldi, T.; Curci, E.; Semeraro, N., the main research direction is reticulosarcoma effect deoxypyridoxine; sarcoma effect pyridoxine analog; tumor effect vitamin B6 analog.Synthetic Route of C8H12ClNO2.

Control and exptl. rats were inoculated s.c. in the dorsal region with solid reticulosarcoma IRE. Starting on the 2nd day, each exptl. rat received i.m. 0.35 mg/day of 4-deoxypyridoxine-HCl until death (14-32 days later). The values for latent period, survival, and daily body weight were similar for both groups.

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Pyrimidine | C4H4N2 – PubChem,
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Epoxy compounds usually have stronger nucleophilic ability, because the alkyl group on the oxygen atom makes the bond angle smaller, which makes the lone pair of electrons react more dissimilarly with the electron-deficient system. Compound: 4-Chloro-8-methylquinoline, is researched, Molecular C10H8ClN, CAS is 18436-73-2, about Rapid Microwave-Assisted, Solvent-Free Approach to Functionalization of 8-Methylquinolines via Rh-Catalyzed C(sp3)-H Activation.Product Details of 18436-73-2.

A microwave-assisted synthesis of aryl (quinolinyl)acetamide derivatives I [R1 = H, 6-Cl, 4-Br, etc.; R2 = 3-Me, 4-F, 4-Cl, etc.] and quinolinyl (methyl)benzamide II via Rh-catalyzed C(sp3)-H activation of 8-methylquinoline under solvent-free condition was reported. In comparison with traditional method, this reaction proceeded more efficiently with excellent yield, a broad range substrate scope and good functional group tolerance.

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In organic chemistry, atoms other than carbon and hydrogen are generally referred to as heteroatoms. The most common heteroatoms are nitrogen, oxygen and sulfur. Now I present to you an article called Chemistry of vitamin B6. IX. Derivatives of 5-deoxypyridoxine, published in 1953, which mentions a compound: 148-51-6, mainly applied to , HPLC of Formula: 148-51-6.

cf. C.A. 47, 8745g. The 5-deoxy derivatives (I) of pyridoxine (II), pyridoxal (III), and pyridoxamine (IV) were prepared and characterized. The I can participate normally in biochemical reactions involving the substituent at the 4-position but cannot be phosphorylated like II, III, and IV. As expected the I had no vitamin B6 activity but were effective antimetabolites. Codecarboxylase has been catalytically hydrogenated to 5-deoxypyridoxine (V); both II and III yielded under the same conditions a mixture of 4-deoxypyridoxine (VI) and V. The absorption spectra of 5-deoxypyridoxal (VII) (recorded) and pure pyridoxal-5-phosphate (codecarboxylase) (VIII) at pH 11.0 and 1.9, resp., are almost identical. The deep yellow color of both VII and VIII in alk. solution together with other absorption characteristics is ascribed to a quinoid structure. 2-Methyl-3-hydroxy-4-methoxymethyl-5-chloromethylpyridine (IX).HCl (2.38 g.) in 125 cc. MeOH was shaken with H in the presence of 2 g. 5% Pd-Darco, the mixture filtered, and the filtrate concentrated to 20 cc. to yield 1.5 g. (75%) 2,5-dimethyl-3-hydroxy-4-methoxymethylpyridine (X).HCl, m. 152-3° (from EtOH-Et2O). IX.HCl (23.7 g.) reduced similarly in 2 equal portions, each one in 600 cc. MeOH with 5 g. Pd catalyst yielded 19.0 g. (94%) X.HCl. X.HCl (1.47 g.) in 50 cc. 4N HCl heated 3 hrs. at 180-90° in a sealed tube, the colorless solution filtered, the filtrate concentrated to dryness, and the H2O removed azeotropically with EtOH and C6H6 yielded 0.96 g. (70%) V.HCl, m. 143-3.5° (from EtOH-Et2O); treated with excess NaHCO3 gave V, m. 181-2° (from EtOH). X.HCl was treated in H2O with NaHCO3, the mixture concentrated in vacuo and extracted with Et2O, the extract evaporated, 3.1 g. of the residual free base heated 18 hrs. with 50 cc. MeOH and 50 cc. liquid NH3 in a sealed tube, the mixture evaporated in vacuo to dryness, MeOH added and removed twice by distillation, and the residue extracted with Et2O to leave 1.86 g. (60%) 5-deoxypyridoxamine (XI); m. 160-1° (from MeOH); 2,5-dimethyl-3-p-toluenesulfonoxy-4-p-toluenesulfonylaminopyridine-HCl, m. 194-5° (from EtOH). A small sample of XI was heated 20 min. with Ac2O on a steam bath, the solution concentrated to dryness, the residue treated with EtOH, distilled to dryness, dissolved in HCl, treated with Darco, neutralized with NaHCO3, chilled, and the crystalline deposit recrystallized from C6H6 containing a few drops EtOH to give 2,5-dimethyl-3-acetoxy-4-acetylaminomethylpyridine, m. 174-5°. V.HCl (5.7 g.) was stirred 2 hrs. at 60-70° with 2.8 g. MnO2, 1.5 cc. H2SO4, and 75 cc. H2O, the mixture filtered, the filtrate concentrated in vacuo, the sirup taken up in 15 cc. H2O, excess solid AcONa added, and the thick, crystalline precipitate cooled, filtered off, and washed with ice water to give 1.30 g. (29%) VII, m. 108-9° (from petr. ether); the aqueous filtrate from VII gave with 2 g. NH2OH.HCl 0.9 g. (18%) oxime of VII, m. 239-40° (decomposition) (from EtOH). To the aqueous filtrate of a similar run were added 12 g. NaOAc and 4.5 g. NH2OH.HCl and the mixture was heated 10 min. on a steam bath to yield 2.43 g. (49%) oxime of VII. VII in CHCl3 treated with excess alc. HCl, the solution evaporated in vacuo to dryness, a little H2O added and removed in vacuo, and the residue treated with CHCl3 yielded VII.HCl, m. 191-3° (decomposition). VII (90 mg.) in 1 cc. H2O was cooled in ice, the pH adjusted to 11 with 6N NaOH, 4 drops 30% H2O2 added, the mixture adjusted to pH 3 with HCl and cooled, and the precipitate washed with H2O, EtOH, and Et2O to yield 70 mg. (85%) 2,5-dimethyl-3,4-dihydroxypyridine, decomposed 262-70°. Crude Ca codecarboxylase (0.5 g.) was suspended in H2O and treated with 0.7 cc. 6N HCl, the mixture filtered, the filtrate diluted to 50 cc. shaken 2.25 hrs. at atm. pressure with H and 0.5 g. 10% Pd-C, filtered and concentrated to dryness in vacuo, the residue dissolved in about 3 cc. H2O, the solution treated with excess solid NaHCO3, filtered, the filter residue washed with H2O, the combined filtrate and washings were concentrated in vacuo to 5 cc., the concentrate extracted 21 hrs. continuously with CHCl3, the extract evaporated, and the residue treated with alc. HCl and precipitated with Et2O to give 0.07 g. V.HCl, m. 140-1°. III.HCl (0.35 g.) was treated with 0.10 g. CaO and 0.17 g. H3PO4 and hydrogenated similarly to give 0.08 g. (24%) VI.HCl, m. 264-5°, and 0.11 g. (33%) V.HCl; the aqueous filtrate left from the CHCl3-extraction was concentrated to dryness, the residue extracted with EtOH, and the extract acidified with alc. HCl to give 0.11 g. (30%) I.HCl. Similar hydrogenation of 0.40 g. I.HCl in 0.3 cc. 6N HCl and 50 cc. H2O for 4-5 hrs. gave 0.16 g. (42%) VI.HCl and 0.09 g. (24%) V.HCl. Attempted similar hydrogenation of V gave only recovered starting material.

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Pyrimidine | C4H4N2 – PubChem,
Pyrimidine – Wikipedia

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.Horton, R. W.; Meldrum, B. S. researched the compound: 5-(hydroxymethyl)-2,4-dimethylpyridin-3-ol hydrochloride( cas:148-51-6 ).Reference of 5-(hydroxymethyl)-2,4-dimethylpyridin-3-ol hydrochloride.They published the article 《Preconvulsive changes in brain glucose metabolism following drugs inhibiting glutamate decarboxylase》 about this compound( cas:148-51-6 ) in Journal of Neurochemistry. Keywords: convulsant brain glucose glycogen; allylglycine brain glucose glycogen; deoxypyridoxine brain glucose glycogen; methionine sulfoximine brain glucose; isoniazid brain glucose glycogen; temperature brain glucose convulsant. We’ll tell you more about this compound (cas:148-51-6).

DL-C-allylglycine (I) [7685-44-1], 4-deoxypyridoxine-HCl (II) [148-51-6], and DL-methionine-D-sulfoximine (III) (180, 250, and 300 mg/kg resp., i.p.) each induced preconvulsive increases in the brain glucose [50-99-7] concentration of mice at room temperature; II and III also increased brain glycogen [9005-79-2] concentrations in room-temperature mice, but only II did so in mice maintained at 33-4°. Only with I was the increase in brain glucose concentration associated with an increase in blood glucose concentration I, II, III, or isoniazid [54-85-3] (150 mg/kg) reduced rectal temperature in mice at room temperature but not those at 33-4°. Isoniazid reduced brain glucose and glycogen concentrations in mice at 33-4°, but did not affect mice at room temperature The relation between the effects of these drugs on brain carbohydrates and amino acid metabolism is discussed.

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Pyrimidine | C4H4N2 – PubChem,
Pyrimidine – Wikipedia

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.Landge, Vinod G.; Sahoo, Manoj K.; Midya, Siba P.; Jaiswal, Garima; Balaraman, Ekambaram researched the compound: 4-Chloro-8-methylquinoline( cas:18436-73-2 ).COA of Formula: C10H8ClN.They published the article 《Well-defined palladium(II) complexes for ligand-enabled C(sp3)-alkynylation》 about this compound( cas:18436-73-2 ) in Dalton Transactions. Keywords: palladium catalyst alkynylation methylquinoline; quinoline methyl alkynylation palladium catalyst. We’ll tell you more about this compound (cas:18436-73-2).

The first example of ligand-enabled C(sp3)-alkynylation of 8-methylquinoline is reported. The reaction is catalyzed by well-defined Pd(II) complexes. The present C(sp3)-alkynylation has a broad substrate scope as well as functional group tolerance and proceeds efficiently under mild conditions.

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Pyrimidine | C4H4N2 – PubChem,
Pyrimidine – Wikipedia

Stone, William E. published the article 《Effects of alterations in the metabolism of γ-aminobutyrate on convulsant potencies》. Keywords: GABA convulsant mechanism; mercaptopropionate convulsion GABA; pentamethylenetetrazole convulsion GABA; bicuculline convulsion GABA; picrotoxin convulsion GABA.They researched the compound: 5-(hydroxymethyl)-2,4-dimethylpyridin-3-ol hydrochloride( cas:148-51-6 ).Name: 5-(hydroxymethyl)-2,4-dimethylpyridin-3-ol hydrochloride. 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:148-51-6) here.

Drugs that alter γ-aminobutyrate (GABA) [56-12-2] metabolism and presumably affect the availability of GABA in synaptic regions were tested for their relative effects on the potencies of 4 convulsants: 3-mercaptopropionate (3-MP) [107-96-0], pentamethylenetetrazole (PTZ) [54-95-5], bicuculline [485-49-4], and picrotoxin [124-87-8] in mice. Aminooxyacetic acid hemichloride [2921-14-4] given prior to the convulsant tended to decrease the potency of 3-MP more than that of PTZ. It decreased the potency of bicuculline more than that of PTZ but less than that of 3-MP, and did not alter that of picrotoxin. Thiocarbohydrazide (TCH) [2231-57-4], DL-C-allylglycine [7685-44-1], and 4-deoxypyridoxine-HCl (DOP) [148-51-6] tended to potentiate 3-MP more than PTZ. The effects of allylglycine on bicuculline and picrotoxin were intermediate. DOP potentiated bicuculline and picrotoxin only to the extent that it potentiated PTZ. TCH resembled DOP in its effect on bicuculline. Valproic acid [99-66-1] decreased the potency of each convulsant; it was most effective against PTZ, slightly less so against 3-MP, and still less effective against bicuculline and picrotoxin. Its anticonvulsive action probably is not primarily via the GABA system. Phenelzine [51-71-8] slightly decreased the potency of bicuculline, but potentiated 3-MP and picrotoxin and did not affect the potency of PTZ. Diacetyl monoxime [57-71-6] was anticonvulsive against PTZ, bicuculline, and picrotoxin, but not against 3-MP. The results do not support the view that bicuculline and picrotoxin induce seizures by blocking GABA-mediated inhibition.

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Pyrimidine | C4H4N2 – PubChem,
Pyrimidine – Wikipedia

Heterocyclic compounds can be divided into two categories: alicyclic heterocycles and aromatic heterocycles. Compounds whose heterocycles in the molecular skeleton cannot reflect aromaticity are called alicyclic heterocyclic compounds. Compound: 65090-78-0, is researched, Molecular C4H7BrO3, about A convenient and exclusive methoxybromination of alkenes, the main research direction is methoxybromination alkene; methoxyiodination alkene; alkene methoxybromination methoxyiodination; bromination methoxy alkene; iodination methoxy cyclohexene.Application of 65090-78-0.

Alkenes R1CR2:CR3R4 (e.g., R1 = Ph, p-tolyl, H; R2 = H, Me; R3 = HCO2Me; R4 = CO2Me, H) were methoxybrominated with Br in MeOH in the presence of AgNO3, Pb(NO3)2 or yellow Pb oxide (which one depended on the nature of the alkene). Cyclohexene was methoxyiodinated similarly in the presence of AgNO3. Electrophilic addition of the elements of MeOBr was general. The trans and stereospecific nature was established by studying dehydrobromination of methoxybromoadducts under E2 elimination conditions.

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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 《The relation between iodine-131 metabolism, tumor growth, and regression》. Authors are Scott, Kenneth G.; Daniels, Marie B..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.

Ability of tumors to alter the normal metabolic pathway of I131 and compounds labeled with it (iodide-trapping syndrome) (I) is characterized by higher than normal retention of I131 by skin, muscle, gastrointestinal tract, and plasma, and a lower than normal thyroid uptake and urinary excretion of I131. I was elicited in rats by isografts and homografts of a transmissible fibrosarcoma, but not by homoiografts (which regressed after 5-7 days of growth). The data suggest that local and systemic I parallels progressive tumor growth and is absent in tumor implants destined to regress.

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Pyrimidine | C4H4N2 – PubChem,
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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: 4-Chloro-8-methylquinoline( cas:18436-73-2 ) is researched.SDS of cas: 18436-73-2.Chen, Junli; Campbell, Adrian P.; Urmi, Kaniz F.; Wakelin, Laurence P. G.; Denny, William A.; Griffith, Renate; Finch, Angela M. published the article 《Human α1-adrenoceptor subtype selectivity of substituted homobivalent 4-aminoquinolines》 about this compound( cas:18436-73-2 ) in Bioorganic & Medicinal Chemistry. Keywords: human adrenoceptor selectivity homobivalent aminoquinoline; 4-Aminoquinolines; 5-HT(1A)-receptor; Affinity; Selectivity; α(1)-adrenoceptor. Let’s learn more about this compound (cas:18436-73-2).

A series of ring-substituted ethyl- and heptyl-linked 4-aminoquinoline dimers were synthesized and evaluated for their affinities at the 3 human α1-adrenoceptor (α1-AR) subtypes and the human serotonin 5-HT1A-receptor (5-HT1A-R). We find that the structure-specificity profiles are different for the two series at the α1-AR subtypes, which suggests that homobivalent 4-aminoquinolines can be developed with α1-AR subtype selectivity. The 8-Me ethyl-linked analog has the highest affinity for the α1A-AR, 7 nM, and the greatest capacity for discriminating between α1A-AR and α1B-AR (6-fold), α1D-AR (68-fold), and the 5-HT1A-R (168-fold). α1B-AR selectivity was observed with the 6-Me derivative of the ethyl- and heptyl-linked 4-aminoquinoline dimers and the 7-methoxy (7-OMe) derivative of the heptyl-linked analog. These substitutions result in 4- to 80-fold selectivity for α1B-AR over α1A-AR, α1D-AR, and 5-HT1A-R. In contrast, 4-aminoquinoline dimers with selectivity for α1D-AR are more elusive, since none studied to date has greater affinity for the α1D-AR over the other two α1-ARs. The selectivity of the 8-Me ethyl-linked 4-aminoquinoline dimer for the α1A-AR, and 6-Me ethyl-linked, and the 6-Me and 7-OMe heptyl-linked 4-aminoquinoline dimers for the α1B-AR, makes them promising leads for drug development of α1A-AR or α1B-AR subtype selective ligands with reduced 5-HT1A-R affinity.

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Pyrimidine | C4H4N2 – PubChem,
Pyrimidine – Wikipedia