4- N- amino

The general pattern of alkylation of 2-acylaininothiazoles parallels that of 2-aminothia2ole itself (see Section III.l). In neutral medium attack occurs on the ring nitrogen, and in alkaline medium a mixture of N-ring and N-amino alkylation takes place (40, 43, 161. 163). In acidic medium unusual behavior has been reported (477) 2-acetamido-4-substituted thiazoles react with acetic anhydride in the presence of sulfuric acid to yield 2-acetylimino-3-acetyl-4-phenyl-4-thiazolines (255) when R = Ph. but when R4 = Me or H no acetylation occurs (Scheme 151). The explanation rests perhaps in an acid-catalyzed heterocyclization with an acetylation on the open-chain compound (253), this compound being stabilized... 

Since pyridazinones are acidic compounds, they undergo IV-hydroxy- and N-amino-methylation. They react also with aromatic aldehydes in the presence of acetic anhydride in the ratio of 2 1 to give the condensation product (73 Scheme 23). 

N-Amino and N-nitro groups N-Hydroxy groups and N-oxides N-Hatogeno groups... 

C in D2O. Extensive tables are found in Lehn s review <70MI50100). Calculations of inversion barriers have met with mixed success. The MNDO SCF method gives results which compare well with experimental values, including the high barriers of Af-halo- and N-amino-aziridines, and the low ones for Af-trimethysilyl- and Af-phosphino-aziridines <80JCS(P2)1512). 

Amoxicillin — see Penicillin, D-n-amino-p-hydroxybenzyl-Amozonolysis cycloalkenes, 6, 876 Amphotericin B antifungal agent veterinary use, 1, 211... 

Azete, trisdimethylamino-isolation, 7, 278 Azetes, 7, 237-284, 278-284 benzo fused, 7, 278 benzodiazepine fused applications, 7, 284 fused ring, 7, 341-362 structure, 7, 360 2,3-naphtho fusion, 7, 278 reactivity, 7, 279 structure, 7, 278 synthesis, 7, 282-283 Azetidine, acylring expansion, 7, 241 synthesis, 7, 246 Azetidine, 3-acyl-irradiation, 7, 239 synthesis, 7, 246 Azetidine, N-acyl-synthesis, 7, 245 Azetidine, alkyl-synthesis, 7, 246 Azetidine, 3-alkylthio-synthesis, 7, 246 Azetidine, 3-amino-synthesis, 7, 246 Azetidine, N-amino-oxidation, 7, 241 synthesis, 7, 246 Azetidine, aryl-synthesis, 7, 246... 

Naphth[2,l-d]oxazolium iodide, 2,3-dimethyl-reactions, 6, 215 Naphthyridine, amino-reactions, 2, 598 Naphthyridine, N-amino-reactions, 2, 596 Naphthyridine, 3-bromo-reactions... 

Purines, N-alkyl-N-phenyl-synthesis, 5, 576 Purines, alkylthio-hydrolysis, 5, 560 Mannich reaction, 5, 536 Michael addition reactions, 5, 536 Purines, S-alkylthio-hydrolysis, 5, 560 Purines, amino-alkylation, 5, 530, 551 IR spectra, 5, 518 reactions, 5, 551-553 with diazonium ions, 5, 538 reduction, 5, 541 UV spectra, 5, 517 Purines, N-amino-synthesis, 5, 595 Purines, aminohydroxy-hydrogenation, 5, 555 reactions, 5, 555 Purines, aminooxo-reactions, 5, 557 thiation, 5, 557 Purines, bromo-synthesis, 5, 557 Purines, chloro-synthesis, 5, 573 Purines, cyano-reactions, 5, 550 Purines, dialkoxy-rearrangement, 5, 558 Purines, diazoreactions, 5, 96 Purines, dioxo-alkylation, 5, 532 Purines, N-glycosyl-, 5, 536 Purines, halo-N-alkylation, 5, 529 hydrogenolysis, 5, 562 reactions, 5, 561-562, 564 with alkoxides, 5, 563 synthesis, 5, 556 Purines, hydrazino-reactions, 5, 553 Purines, hydroxyamino-reactions, 5, 556 Purines, 8-lithiotrimethylsilyl-nucleosides alkylation, 5, 537 Purines, N-methyl-magnetic circular dichroism, 5, 523 Purines, methylthio-bromination, 5, 559 Purines, nitro-reactions, 5, 550, 551 Purines, oxo-alkylation, 5, 532 amination, 5, 557 dipole moments, 5, 522 H NMR, 5, 512 pJfa, 5, 524 reactions, 5, 556-557 with diazonium ions, 5, 538 reduction, 5, 541 thiation, 5, 557 Purines, oxohydro-IR spectra, 5, 518 Purines, selenoxo-synthesis, 5, 597 Purines, thio-acylation, 5, 559 alkylation, 5, 559 Purines, thioxo-acetylation, 5, 559... 

Pyrido[2,3-c]pyridazine, N-amino-synthesis, 3, 243-244 Pyrido[2,3-c]pyridazine, 7-methyl- H NMR, 3, 234... 

FIGURE 1.9 (a) Amino acids build proteins by connecting the n-carboxyl C atom of one amino acid to the n-amino N atom of the next amino acid in line, (b) Polysaccharides are built by combining the C-1 of one sugar to the C-4 O of the next sugar in the polymer, (c) Nucleic acids are polymers of nucleotides linked by bonds between the 3 -OH of the ribose ring of one nucleotide to the 5 -P04 of its neighboring nucleotide. All three of these polymerization processes involve bond formations accompanied by the elimination of water (dehydration synthesis reactions). 

To a suspension containing 4.86 parts of 4-methylbenzenesulfonyl urethane (MP 80° to 82°C) and 36 parts of anhydrous toluene there are rapidly added 2.5 parts of N-amino-3-azabicyclo(3.3.0)octane (BP/18 mm = 86°C). The reaction mixture is heated under reflux for 1 hour. The resulting ciear solution crystallizes on cooling. The crystals are filtered, washed with 2 parts of toluene, then recrystallized from anhydrous ethanol. There are obtained 3.8 parts of the desired product, MP 180° to 182°C. 

From the sulfonyl-urethane described above and N-amino-hexamethylene-imine, there is obtained, in a yield of 70%, the compound 4-[[4-[)3-[5-methyl-isoxazolyl-(3)-carboxamido]-ethyl]-benzene-sulfonyl] ]-1,1-hexamethylene-semicarbazide in the form of colorless crystals of MP 189°C. 

Sulfamyl-4-chloro-benzoyl chloride N-Amino-2-methyl indoline... 

A total of 8.9 parts of 3-sulfamyl-4-chloro-benzoyl chloride In a solution of 50 parts of anhydrous tetrahydrofuran are added portionwise in the course of 60 minutes, while stirring, to a solution of 5.2 parts of N-amino-2-methyl indoline and 3.5 parts of triethylamine in 150 parts of anhydrous tetrahydrofuran. The reaction mixture is left to stand 3 hours at room temperature, then the precipitated chlorhydrate of triethylamine is filtered off. 

Draw resonance forms for the purple anion obtained by reaction of ninhydrin with an n-amino acid (Problem 26.53). 

Identify the chiral carbon atoms in a carbohydrate or n-amino acid. 

The reaction of N-amino heterocycles 759 and 760 with diaryl carbodii-mide gave triazolotriazine 761 in good yield. In some cases the intermediate guanidines are isolated which by thermal or basic treatment cyclized (86H3363 89H1607) to neutral or mesoionic compounds. 

In many instances, however, the intermediate triazoline can be isolated and separately converted into the aziridine, often with poor stereoselectivity. The first practical modification to the original reaction conditions generated the (presumed) nitrenes by in situ oxidation of hydrazine derivatives. Thus, Atkinson and Rees prepared a range of N-amino aziridine derivatives by treatment of N-aminophthali-mides (and other N-aminoheterocydes) with alkenes in the presence of lead tetraacetate (Scheme 4.10) [7]. 

AZIRIDINE, l-amino-2-phenyl [1-Azmdin-amme, ( )-2-phenyl-], 55, 55, 114 AZIRIDINES, N-amino- [1-Azindinamines], 55,114... 

Photolysis, apparatus for, 55, 17 Phthalimide, N-amino- [ 1//-Isoindole-1,3-(2//)-dione, 2-amino-, 55, 115 Potassium rew-butoxide [2-Propanol, 2-methyl-, potassium salt], 55,12, 13 Potassium iodide, 55, 71 Potassium permanganate [Permanganic acid, potassium salt], 55,68 Propane, 2,2 dimethyl 1 phenyl, 55, 112 Propane, 2 isocyano-2-methyl-, 55, 96... 

Isocyanide, benzyl, 55, 98 Isocyanide, butyl-, 55, 98 Isocyanide, cyclohexyl-, 55, 98 ISOCYANIDE, 1,1-dimethylethyl- [Isocy-amde, tert-butyl-], 55,96 Isocyanide, dodecanyl- 55,98 Isocyanide, ethyl- 55,98 Isocyanide, methyl-, 55, 98 Isocyanide, phenyl-, 55, 98 1//Isoindole 1,3(2//) dione, 2 amino [Phthahmidc, N-amino-], 55, 115 1//-ISOINDOLE-1,3(2//)-DIONE, trans-( )-2-(2,3-diphenyl-l-aziridinvl)-[Azindine, frans-2,3-diphenyl-l-phthalimido-], 55, 115 ISOXAZOLE, 3-(4-chlorophenyl)-5-(4-methoxy phenyl)-, 55, 39 Isoxazole 5-(4-chlorophenyl)-3-(4-meth-oxyphenyl)-, 55, 42... 

Figure 46-5. Variations in the way in which proteins are inserted into membranes. This schematic representation, which illustrates a number of possible orientations, shows the segments of the proteins within the membrane as a-helicesand the other segments as lines. The LDL receptor, which crosses the membrane once and has its amino terminal on the exterior, is called a type I transmembrane protein. The asialoglycoprotein receptor, which also crosses the membrane once but has its carboxyl terminal on the exterior, is called a type II transmembrane protein. The various transporters indicated (eg, glucose) cross the membrane a number of times and are called type III transmembrane proteins they are also referred to as polytopic membrane proteins. (N, amino terminal C, carboxyl terminal.) (Adapted, with permission, from Wickner WT, Lodish HF Multiple mechanisms of protein insertion into and across membranes. Science 1985 230 400. Copyright 1985 by the American Association for the Advancement of Science.)...

In all, there are 2 —16 different ways to combine two amino acids in chains of four units. The 20 common amino acids combine to give 20 tetrapeptides, which is 1.6x10 different molecules. Each time the chain adds an amino acid, the number of possibilities is multiplied by 20, so a set of n amino acids can form 20 different pol q)eptides. Because proteins can contain hundreds of amino acids, each of which can be any of the 20... 

It should be noted that the UDMH + O3 mechanism is probably quite different from that appropriate for hydrazines with hydrogens on both nitrogen atoms. In our study of the reactions of O3 with N2Hi and monomethyl hydrazine (MMH) 0,0, the data were best explained by assuming the initial hydrazine consumption reactions to be analogous to reactions (1) and (2), but with the N-amino radical formed reacting rapidly with O2, e.g.. 

In the initial stage of the irradiation, the O3 level is suppressed by NO, and thus reaction with OH (reaction 2) is probably the process which consumes UDMH. The N-amino radical... 

The pathway for the degradation of metribuzin that has been used as a herbicide has been established, and attention has been directed to the occurrence of the metabolites in leachate from agricultural soil in Denmark. Although the parent metribuzin was not found, the metabolites produced by loss of the N-amino group and the thiomethyl groups were produced and contributed to ground-water contamination (Kjaer et al. 2005). 

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