Carbamate compounds selectivity

The UK Pesticide Safety Directorate (PSD) has decided to use the TEF approach for assessment of combined risk from exposure to mixtures of acetyl cholinesterase inhibitors (organophosphate (OP) compounds and carbamates) (PSD 1999). Despite clear differences in the action of carbamates and OP compounds, the index compounds selected for all acetyl cholinesterase inhibitors were either aldicarb (carbamate) or chlorpyrifos (OP). The POD for determining relative potency was predetermined as the dose level that produced 20% inhibition of red blood cell cholinesterase in a 90-day dietary study in rats. 

In parallel to these studies, carbamate compounds 1 and 11-14 were assessed for their antitumor efficacy in mouse cancer xenograft models.15 When implanted human colon cancer CXF280 xenografts were grown within mice for fourteen days, doses of test compounds were administered orally. After a three-week regimen, excised tumor volumes were measured and the percent inhibition of tumor growth was calculated. From this investigation, capecitabine (1) was found to be the most effective treatment, and was furthermore found not to cause intestinal toxicity.16 All of these preclinical observations contributed to the selection of capecitabine as a candidate for further development. 

Recently, Li etal,162 used ABPP competitive profiling to screen libraries of carbamate compounds to identify specific inhibitors for uncharacterized serine hydrolases. The carbamate reactive group reacted irreversibly with the active site serine, which, in turn, blocked subsequent labeling with a fluorescent FP probe. The carbamates were decorated with various side chains in order to find the optimal composition for dedicated target binding. Utilizing this method, a potent and selective inhibitor for a//3-hydrolase domain 6, which may play important functions in nervous system metabolism or signaling, was discovered. 

S.P. Rannard and N.J. Davis, "The Selective Reaction of Primary Amines with Carbonyl Imidazole Containing Compounds Selective Amide and Carbamate Synthesis", Org. Lett., Vol. 2, pp. 2117-2120, 2000. 

Deprotonation by s-BuLi/(—)-sparteine of racemic N,N-dibenzyl-3-cyclopropylpropyl carbamate 117 selected only the pro-S-proton of the (ii)-substrate, leading to a powerful KR leaving an enantiomerically enriched unreacted (S)-117 [76]. The diastereomericaUy enriched lithiated compound 118 could react with an electrophile to give 1,2-aminoalcohol derivative 119 of high enantiomeric excess. 

Catalytic hydrogenolysis of an O-benzyl protective group is a mild, selective method introduced by Bergmann and Zervas to cleave a benzyl carbamate (>NC0-0CH2C6H5 —> >NH) prepared to protect an amino group during peptide syntheses. The method has also been used to cleave alkyl benzyl ethers, stable compounds prepared to protect alkyl alcohols benzyl esters are cleaved by catalytic hydrogenolysis under neutral conditions. 

In 2004, Alterman et al. used a microwave-assisted Ullmann-type protocol for the synthesis of N-(f-butyl)-3-[4-(lH-imidazol-l-yl)benzyl]-5-isobutylthiophene-2-sulfonamide (Scheme 106) [61]. Deprotection of the sulfonamide followed by carbamate formation via reaction with butyl chloro-formate finally gave the target compound for biological evaluation as selective angiotensin II AT2 receptor agonist. The IH-imidazole derivative, however, showed only a low affinity for the AT2 receptor (Ki value > 10 p,M). 

Oxidative carbonylation generates a number of important compounds and materials such as ureas, carbamates, 2-oxazolidinones, and aromatic polycarbonates. The [CuX(IPr)] complexes 38-X (X = Cl, Br, I) were tested as catalysts for the oxidative carbonylation of amino alcohols by Xia and co-workers [43]. Complex 38-1 is the first catalyst to selectively prepare ureas, carbamates, and 2-oxazolidinones without any additives. The important findings were the identity of the counterion and that the presence of the NHC ligand influenced the conversions. 2-Oxazohdinones were formed from primary amino alcohols in 86-96% yield. Complex 38-1 also catalysed the oxidative carbonylation of primary amines to ureas and carbamates. n-Propylamine, n-butylamine, and t-butylamine were transformed into the... 

A plefhora of methods developed for the determination of triazine compounds in water, soil, crops, biological fluids, etc., have been reported in the literature, and several excellent reviews are available for the interested reader. " More method papers are published on the determination of triazines in water than for all other sample matrices combined (water > soil > crop). The majority of the water method reports relate to the determination of parent triazine compounds plus compounds from one or more other chemical classes of pesticides (e.g., phenoxy acids, carbamates, pheny-lureas, acetanilides, acetamides, organophosphorus compounds, etc.) for generalized multi-residue screening or monitoring purposes. Addressed in other more selective... 

The increased use of IV-methyl carbamate insecticides in agriculture demands the development of selective and sensitive analytical procedures to determine trace level residues of these compounds in crops and other food products. HPLC is the technique most widely used to circumvent heat sensitivity of these pesticides. However, HPLC with UV detection lacks the selectivity and sensitivity needed for their analysis. In the late 1970s and early 1980s, HPLC using post-column hydrolysis and derivatization was developed and refined with fluorescence detection to overcome these problems. The technique relies on the post-column hydrolysis of the carbamate moiety to methylamine with subsequent derivatization to a fluorescent isoindole product. This technique is currently the most widely used HPLC method for the determination of carbamates in water" and in fruits and vegetables." " ... 

Abstract In this chapter, selected results obtained so far on Fe(III) spin crossover compounds are summarized and discussed. Fe(III) spin transition materials of ligands containing chalcogen donor atoms are considered with emphasis on those of M,f T-disubsti-tuted-dithiocarbamates, Ar,N-disubstituted-XY-carbamates (XY=SO, SSe, SeSe), X-xan-thates (X=0, S), monothio-/J-diketonates and X-semicarbazones (X=S, Se). In addition, attention is directed to Fe(III) spin crossover systems of multidentate Schiff base-type ligands. Examples of spin inter-conversion in Fe(III) compounds induced by light irradiation are given. 

The electrochemical behaviour of silyl-substituted nitrogen compounds is also interesting. The introduction of a silyl group at the carbon adjacent to the nitrogen of carbamates causes a significant decrease in the oxidation potentials, although such effect is much smaller for amines. Preparative electrochemical oxidation of silyl-substituted carbamates in methanol results in smooth and selective cleavage of the C Si bond and introduction of methanol at the a-... 

Nitrogen compounds are also effective as nucleophiles in the anodic oxidation of silyl-substituted ethers. The electrochemical oxidation in the presence of a carbamate or a sulfonamide in dry THF or dichloromethane results in the selective cleavage of the C-Si bond and the introduction of the nitrogen nucleophile at the carbon (Scheme 21) [55]. Since a-methoxycarbamates are useful intermediates in the synthesis of nitrogen-containing compounds [44], this reaction provides useful access to such compounds. Cyclic silyl-substkuted ethers such as 2-silyltetrahydrofurans are also effective for the introduction of nitrogen nucleophiles. The anodic oxidation in the presence of a carbamate or a... 

The oxidative carbonylation of amines to give ureas is at present one of the most attractive ways for synthesizing this very important class of carbonyl compounds via a phosgene-free approach. Ureas find extensive application as agrochemicals, dyes, antioxidants, resin precursors, synthetic intermediates (also for the production of carbamates and isocyanates), and HIV-inhibitors. Many transition metals (incuding Au [244], Co [248,253-255], Cu [242], Mn [249,256-258], Ni [259], Rh [246,247,260-262], Ru [224,260,263] and especially Pd [219,225,226,264-276], and, more recently, W [277-283]) as well as main-group elements (such as sulfur [284-286] and selenium [287— 292]) have been reported to promote the oxidative carbonylation of amines, usually under catalytic conditions. In some cases, carbamates and/or oxamides are formed as byproducts, thus lowering the selectivity of the process. 

Turning our attention first to alkyl carbamates of cyclic amides, we find interesting attempts to improve the pharmaceutical and pharmacokinetic properties of 5-fluorouracil (8.152, R = H) [194-196], This antitumor agent, while clinically useful, suffers from poor water solubility, unsatisfactory delivery properties and low tissue selectivity. A variety of prodrug candidates were prepared, in particular the alkyl and aryl carbamates presented in Table 8.12. With the exception of the more-lipophilic derivatives, these compounds exhibited somewhat improved water solubility. More importantly, both rectal and oral bioavailability were markedly improved. The activation... 

Under the same conditions (batch or GL-PTC) discussed for CHg-acidic compounds, primary aromatic amines also react with DMC. In this case, although the reaction yields selectively the mono-A-methylated amines with no dimethylated by-products, sizable amounts of methyl carbamates (ArNHCOgMe) are formed. ° Much better results can be gathered in the presence of zeolites, particularly alkali metal exchanged Y and X faujasites. These aluminosilicates posses pseudospheri-cal cavities (supercavities) of 11-8 A in diameter, which can be accessed through channels whose size is 7.4 kP ... 

After selective cyclic carbamate formation, the 3 -OH can be selectively protected using THP (Scheme 4.14). The 5-OH was then glycosylated with a thiofuranose, creating a ribostamycin analog, 78. However, compound 78 was... 

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