Carbamyl

Ketone formation can also be avoided if one of the functional acyl halogens ia phosgene is blocked. Carbamyl chlorides, readily obtained by the reaction of phosgene with ammonia or amines, are suitable reagents for the preparation of amides ia direct Friedel-Crafts acylation of aromatics. The resulting amides can be hydroly2ed to the corresponding acids (134) ... 

The practical appHcation of this reaction has been demonstrated ia the preparation of terephthaUc acid from toluene, ia which case oxidation follows hydrolysis (135). The reaction also proceeds well with substituted carbamyl chlorides such as CgH (C2H )NCOCl. 

In these reactions the active acylating agent is the carbamyl chloride, formed by the reaction of the isocyanate with hydrogen chloride (137) ... 

Mode of Action. All of the insecticidal carbamates are cholinergic, and poisoned insects and mammals exhibit violent convulsions and other neuromuscular disturbances. The insecticides are strong carbamylating inhibitors of acetylcholinesterase and may also have a direct action on the acetylcholine receptors because of their pronounced stmctural resemblance to acetylcholine. The overall mechanism for carbamate interaction with acetylcholinesterase is analogous to the normal three-step hydrolysis of acetylcholine however, is much slower than with the acetylated enzyme. 

Ammonia reacts vigorously with phosgene. The products are urea, biuret, ammeUde (a polymer of urea), cyanuric acid, and sometimes cyameUde (a polymer of cyanic acid). The secondary products probably arise through the very reactive intermediate carbamyl chloride [463-72-9] NH2COCI (see... 

The most important commercial process is the reaction of MDA with an excess of phosgene to form the corresponding isocyanate, 4,4 -methylene-diphenyldiisocyanate, MDI, C H qN202- The reaction proceeds through the formation of a primary carbamyl chloride that is decomposed with heating and the removal of HQ. 

N-carbamyl-D-phenylglyc DL-5-phenylglycine hydantoin hydantoinase Pseud, putida ... 

C rb myl tion. Modification of the amino-terminal groups of hemoglobin (Hb) by the carbamylation reaction using isocyanic acid [75-13-8]... 

J. M. Manning, ia E. Antonini, L. Rossi-Bemardi, and E. Chiancone, eds.. Methods in En mology, Hemoglobins, Academic Press, New York, 1981, pp. 159—167. Preparation of hemoglobin carbamylated at specific NH -terminal residues. 

The crude residue is a mixture of -nitroaniline hydrochloride, />-nitrophenyl carbamyl chloride, /7-nitrophenyl isocyanate, and the />, -dinitrodiphenylurea. The -nitrophenyl carbamyl chloride is converted to -nitrophenyl isocyanate during recrystallization from the hot carbon tetrachloride. 

Nitrophenyl isocyanate has been prepared by heating -nitrophenyl carbamyl chloride. The latter has been obtained by the action of phosgene on -nitroaniline in benzene-toluene solutions, and by the action of phosphorus pentachloride on methyl jii-nitrophenylcarbamate. The preparation given above is based upon recent publications of the authors. ... 

Diakyl carbamyl chlorides Diakyl aluminum hydrides Diborane Dibromoketone Dichloromethyl chloroformate Diphosgene Fuming nitric acid Gngnard reagents Hydrides nonvolatile... 

Diethyl aniline, 54 Diethylcarbaniazine citrate, 54 Diethyl carbamyl chloride, 54 Diethyl chlorophosphate, 54 Diethylene triamine, 54 Diethyl ether, 54 Di(2-ethylhexyl) phthalate, 54 Diethyl ketone, 54 Diethyl-p-phenylenediamine, 54 Diethyl phthalate, 54 Diethylstilbestrol, 55 Diethyl sulfate, 55 Diethyl zinc, 55 Difluoromethane chloride, 55 Digitoxin, 55 Diglycidyl ether, 55 Digoxin, 55 Diisobutyl ketone, 55 Diisopropylamine, 55 Diisopropyl ether, 55 DIKAMIN , 2,4-D, 55 DIKONIRT , 2,4-D, 55 Dimefox, 55 Dimethoate, 55 3,3 -Dimethoxybenzidine, 55 n,n-Dimethylacetamide, 56 Dimethylamine, 56 4-Dimethylaminoazobenzene, 56 Dimethylaminoethanol, 56 n,n-Dimethyl aniline, 56 7,12-Dimethylbenz[a]anthracene, 56 3,3 -Dimethylbenzidine, 56... 

Alkyl and aryl isocyanates react with anhydrous hydrogen fluonde to give carbamyl fluorides [J, 55], the more conveniently handled pyridinium poly(hydro-gen fluoride) reagent can also be used, although the yields tend to be poorer [9] (equation 10). 

Carbamyl and thiocarbamyl fluorides are obtained from hydrogen fluoride and cyanic acid or alkali metal cyanates or thiocyanates [/, 54] Nitnles give iraidofluoride salts with hydrogen fluoride [7] whereas hydrogen cyanide affords difluoromethylamine, which can be isolated as its hexafluoroarsinate salt [55) (equation II)... 

Rubisco exists in three forms an inactive form designated E a carbamylated, but inactive, form designated EC and an active form, ECM, which is carbamylated and has Mg at its active sites as well. Carbamylation of rubisco takes place by addition of COg to its Lys ° e-NHg groups (to give e—NH—COO derivatives). The COg molecules used to carbamylate Lys residues do not become substrates. The carbamylation reaction is promoted by slightly alkaline pH (pH 8). Carbamylation of rubisco completes the formation of a binding site for the Mg that participates in the catalytic reaction. Once Mg binds to EC, rubisco achieves its active CM form. Activated rubisco displays a Ai, for CO2 of 10 to 20... 

Substrate RuBP binds much more tightly to the inactive E form of rubisco (An = 20 nM) than to the active ECM form (A, for RuBP = 20 ixM). Thus, RuBP is also a potent inhibitor of rubisco activity. Release of RuBP from the active site of rubisco is mediated by rubisco activase. Rubisco activase is a regulatory protein it binds to A-form rubisco and, in an ATP-dependent reaction, promotes the release of RuBP. Rubisco then becomes activated by carbamylation and Mg binding. Rubisco activase itself is activated in an indirect manner by light. Thus, light is the ultimate activator of rubisco. 

Chlorkohlen-oxyd, n. carbonyl chloride, -oxyd-ather, m. ethyl chloroformate. -saure, /. chlorocarbonic acid (chloroformic acid, CICOOH). -sMureamtd, n. chlorocarbonyl amide (carbamyl chloride, H2NCOCI). -stoff, m. carbon chloride, carbon tetrachloride (sometimes with the adj. vierfach). 

Therapeutic Function Analgesic, Anticonvulsant Chemical Name 5H-dibenz[b,f] azepine-5-carboxamide Common Name 5-carbamyl iminostilbene Structural Formula ... 

Table 2-5. The effect of temperature on vancomycin CSP. the separation of N-carbamyl-phenylalanine enantiomers on ...

Both ChEs undergo several post-translational modifications, including glycosylation and glycosylphosphatidy-linositolation (GPI), phosphorylation and carbamylation. 

Hlasta and Deng have developed a two-step solid-phase method for the decoration of azoles at C-2 [188]. First, imidazole was loaded onto a polystyrene-bound carbamyl chloride via a benzaldehyde bridge (Fig. 40). The 2-substi-tuted imidazole was efficiently cleaved in good yields in the presence of various nucleophiles (i.e., water, alcohols, and amines), trifluoroacetic acid, and boron trifluoride under microwave irradiation in a closed vessel at 120 °C for 5 min. 

CBs, like OPs, act as inhibitors of ChE. They are treated as substrates by the enzyme and carbamylate the serine of the active site (Figure 10.8). Speaking generally, car-bamylated AChE reactivates more rapidly than phosphorylated AChE. After aging has occurred, phosphorylation of the enzyme is effectively irreversible (see Section 10.2.4). Carbamylated AChE reactivates when preparations are diluted with water, a process that is accelerated in the presence of acetylcholine, which competes as a substrate. Thus, the measurement of AChE inhibition is complicated by the fact that reactivation occurs during the course of the assay. Carbamylated AChE is not reactivated by PAM and related compounds that are used as antidotes to OP poisoning (see Box 10.1). 

In this scheme, EOH is the enzyme, IX is the inhibitor (either a carbamate or an organophosphate). EOH(IX) is analogous to the Michaelis Menton comploc seen with the substrate reaction. EOI is the acyl-enzyme intermediate for carbamates or a phosphoro-enzyme intermediate for the organophosphates. The equilibrium constant for this reaction (K ) is defined as k /k and the phosphorylation or carbamylation constant is defined as k2- In this study 42)y ANTX-A(S) was found to be more specific for AChE than BUChE. The double reciprocal and Dixon plot of the inhibition of electric eel AChE indicated that the toxin is a non-competitive inhibitor decreases, k remains unchanged) (Figure 2). 

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