Bamberger Fission and Reclosure of 1-Alkyl-5-(alkylamino)imidazole-4-carbonitriles Leading to Their 2-Oxo Derivatives
スポンサーリンク
概要
- 論文の詳細を見る
1-Methyl-5-(methylamino)imidazole-4-carbonitrile (4a) afforded three minor ring-opened products (5a, 6a, 10a) besides its 2-oxo derivative 3a on treatment with ethyl chloroformate in aqueous sodium bicarbonate. The geometrical isomers of these trisubstituted propenenitriles (5a, 6a, 10a) can be separated from each other by means of TLC, but equilibrate rapidly in solution. Because these compounds were converted into 3a in aqueous sodium hydroxide, alkaline treatment of the reaction mixture of 4a afforded a higher yield of 3a; although 3a also rapidly changed into other compounds in 0.1 N aqueous sodium hydroxide at room temperature, it could be recovered from the solution in high yield.5-Alkylamino homologues 3b, c were also prepared in 64% and 46% yields, respectively, by similar treatment of the substrates 4b, c having the 5-alkylamino substituents. The same products 3b, c were obtainable from the positional isomers 4d, e in 83% and 51% yields, respectively. These outcomes are interpretable by supposing that the reactions proceed through common intermediates, equilibrated mixtures of (E)- and (Z)-[2-(alkylamino)-1-cyano-2-(methylamino)ethenyl]carbamic acid ethyl esters (7).
- 公益社団法人日本薬学会の論文
- 1997-01-15
著者
-
ITAYA Taisuke
Faculty of Pharmaceutical Sciences, Kanazawa University
-
KANAI Tae
Faculty of Pharmaceutical Sciences, Kanazawa University
-
Kanai Tae
Faculty Of Pharmaceutical Sciences Kanazawa University
-
Itaya Taisuke
Faculty Of Pharmaceutical Sciences Kanazawa University
-
Iwata Mitsuo
Faculty Of Pharmaceutical Sciences Kanazawa University
-
Azuma M
Faculty Of Pharmaceutical Sciences Kanazawa University
-
AZUMA Masachika
Faculty of Pharmaceutical Sciences, Kanazawa University
関連論文
- STRUCTURE OF ACRIGNINE-A, THE FIRST NATURALLY OCCURRING ACRIDONOLIGNOID FROM CITRUS PLANTS
- Structure of Wyosine, the Condensed Tricyclic Nucleoside of Torula Yeast Phenylalanine Transfer Ribonucleic Acid
- Synthesis and Structure of the Hypermodified Nucleoside of Rat Liver Phenylalanine Transfer Ribonucleic Acid
- Efficient synthesis and hydrolysis of cyclic oxalate esters of glycols
- Synthesis and Structure of the Marine Ascidian 8-Oxoadenine Aplidiamine
- Purines. LXXIX. Synthesis and Hydrolysis of 3-Methoxyadenine and Its N^6-Benzyl Derivative Leading to the Corresponding 2-Hydroxyadenines
- Purines. LXXVIII. An Alternative Synthesis of the Sea Anemone Purine Alkaloid Caissarone
- Purines. IXXVII. An Alternative Synthesis of N^6-Demethylcaissarone from 9-Methyl-8-oxoadenine by Regioselective N(3)-Methylation : Utilization of the N(7)-Benzyl and N(1)-Benzyloxy Groups as Control Synthons
- Purines. LXXVI. Alkylation of 8-Oxoadenine Derivatives : Syntheses of 3,7-Dialkyl-, 3,9-Dialkyl-, and 3,7,9-Trialkyl-8-oxoadenines
- Purines. LXXV. Dimroth Rearrangement, Hydrolytic Deamination, and Pyrimidine-Ring Breakdown of 7-Alkylated 1-Alkoxyadenines : N(1)-C(2) versus N(1)-C(6) Bond Fission
- Purines. LXXIV. Syntheses and Rearrangements of 8-Oxoadenines Monomethylated at the N^6-, 1-, and 3-Positions
- Purines. LXXII. Oxidation of N^6-Alkyladenines with m-Chloroperoxybenzoic Acid Leading to N^6-Alkyladenine 1-Oxides
- Purines. LXXI. Preparation and Alkylation of 7-Alkyladenine 1-Oxides : A General Synthesis of 1-Alkoxy-7-alkyladenines
- Reactions of oxalyl chloride with 1,2-cycloalkanediols in the presence of triethylamine
- Isomerization through Cleavage and Recombination of Imidazolide Linkage in the Condensed Tricyclic System Related to Hypermodified Bases of Phenylalanine Transfer Ribonucleic Acids
- Bamberger Fission and Reclosure of 1-Alkyl-5-(alkylamino)imidazole-4-carbonitriles Leading to Their 2-Oxo Derivatives
- Purines. LXXIII. Syntheses of 8-Alkoxy- and 8-Hydroxy-3-alkyladenines from 3-Alkyladenine 7-Oxides through 7-Alkoxy-3-alkyladenines
- Reaction of Phosgene with the Tricycle Related to the Minor Base of Phenylalanine Transfer Ribonucleic Acids
- Practical Synthesis of Wybutosine, the Hypermodified Nucleoside of Yeast Phenylalanine Transfer Ribonucleic Acid
- Studies towards the Synthesis of the Hypermodified Nucleoside of Rat Liver Phenylalanine Transfer Ribonucleic Acid : Improved Synthesis of the Base β-Hydroxywybutine
- Synthesis of Optically Active (2-Arylvinyl)glycine Derivatives by Palladium-Catalyzed Arylation of (S)-N-(Benzyloxycarbonyl)vinylglycine