Hydroxyalkyl function

If the hydroxyalkyl function and the oxy substituent are linked to the same cyclopropane carbon, the pattern is perfect for a cyclopropylcarbinyl-cyclobutanone rearrangement. This allows a very convenient access to cyclobutanones (equation The method was used in syntheses of grandisol poitediol and... 

Methylsiloxane-dimethylsiloxane copolymer, carbinol functional Methylsiloxane-dimethylsiloxane copolymer, hydroxyalkyl functional. See Dimethyl, methyl (polypropylene oxide) siloxane Methylsilyl trichloride. See Methyltrichlorosilane Methyl sorbate... 

Chem. Descrip. Hydroxyalkyl functional methylsiloxane-dlmethylsiloxane copolymer... 

Synonyms Methylsiloxane-dimethylslloxane copolymer, carbinol functional Meth-ylsiloxane-dimethylsiloxane copolymer, hydroxyalkyl functional Classification Silicone... 

Esters. Most acryhc acid is used in the form of its methyl, ethyl, and butyl esters. Specialty monomeric esters with a hydroxyl, amino, or other functional group are used to provide adhesion, latent cross-linking capabihty, or different solubihty characteristics. The principal routes to esters are direct esterification with alcohols in the presence of a strong acid catalyst such as sulfuric acid, a soluble sulfonic acid, or sulfonic acid resins addition to alkylene oxides to give hydroxyalkyl acryhc esters and addition to the double bond of olefins in the presence of strong acid catalyst (19,20) to give ethyl or secondary alkyl acrylates. 

Acrolein, acrylamide, hydroxyalkyl acrylates, and other functional derivatives can be more hazardous from a health standpoint than acryhc acid and its simple alkyl esters. Furthermore, some derivatives, such as the alkyl 2-chloroacrylates, are powerful vesicants and can cause serious eye injuries. Thus, although the hazards of acryhc acid and the normal alkyl acrylates are moderate and they can be handled safely with ordinary care to industrial hygiene, this should not be assumed to be the case for compounds with chemically different functional groups (see Industrial hygiene Plant safety Toxicology). 

A surpnsing feature of the reactions of hexafluoroacetone, trifluoropyruvates, and their acyl imines is the C-hydroxyalkylation or C-amidoalkylaOon of activated aromatic hydrocarbons or heterocycles even in the presence of unprotected ammo or hydroxyl functions directly attached to the aromatic core Normally, aromatic amines first react reversibly to give N-alkylated products that rearrange thermally to yield C-alkylated products. With aromatic heterocycles, the reaction usually takes place at the site of the maximum n electron density [55] (equaUon 5). 

A classical procedure for the synthesis of the A-(1-chloroalkyl)amides1 or carbamates68 involves substitution of the hydroxy group in stable A-( 1-hydroxyalkyl)amides (or carbamates) by a halogen function with reagents such as thionyl chloride, phosphorus pentachloride, phosphorus pentabromide, etc. In certain cases merely heating in concentrated hydrochloric or hydrobromic acid suffices1. 

The method is not restricted to secondary aryl alcohols and very good results were also obtained for secondary diols [39], a- and S-hydroxyalkylphosphonates [40], 2-hydroxyalkyl sulfones [41], allylic alcohols [42], S-halo alcohols [43], aromatic chlorohydrins [44], functionalized y-hydroxy amides [45], 1,2-diarylethanols [46], and primary amines [47]. Recently, the synthetic potential of this method was expanded by application of an air-stable and recyclable racemization catalyst that is applicable to alcohol DKR at room temperature [48]. The catalyst type is not limited to organometallic ruthenium compounds. Recent report indicates that the in situ racemization of amines with thiyl radicals can also be combined with enzymatic acylation of amines [49]. It is clear that, in the future, other types of catalytic racemization processes will be used together with enzymatic processes. 

Bicyclic-monocyclic ion-complex tautomerism The introduction of functional groups onto the substituent at carbon, nitrogen, or phosphorus atoms increases the number of possible types of ion-complex tautomerism. For example, the presence of one more hydroxyalkyl group at the phosphorus atom results in bicyclic-monocyclic tautomerism [Eq. (91)] (85IZV469, 85IZV1102 89IZV946). 

Aldol-type reactions of nitrones (303) occur with electron-deficient ketones, such as a-keto esters, a, 3-diketones, and trifluoromethyl ketones. These reactions are catalyzed by secondary amines. The use of chiral cyclic amines A1-A7 leads to a-(2-hydroxyalkyl)nitrones (304) in moderate yields and rather high optical purity (Scheme 2.120) (381). The mechanism of the nitrone-aldol reaction of iV-methyl-C-ethyl nitrone with dimethyl ketomalonate in the absence and presence of L- proline has been studied by using density functional theory (DFT) (544). 

Like the piperidones, a wide variety of TV-heterocyclic aromatic compounds show an ability to activate electrophilic functional groups. It is known that acetophenone is completely protonated in CF3SO3H, however in the presence of benzene there is no hydroxyalkylation (condensation) reaction.12 On the other... 

The fact that pyromeconic acid and allomaltol were only available with difficulty meant that direct synthesis of certain 3-hydroxy-4-pyridinones was not possible. However the demonstration that some of these compounds were accessible from maltol or ethylmaltol by functionalizing the position adjacent to the ring-oxygen by an aldol condensation and N-oxide intermediates led to the preparation of 2-(l -hydroxyalkyl) and 2-amido derivatives with usefully high affinities for Fe + (70). 

Much simpler than the template-controlled generation of p-functionalized isocyanides is their direct use. 2-Hydroxyalkyl isocyanide 59, where the nucleophilic group and the isocyanide are linked together, spontaneously cyclizes upon activation of the isocyanide by coordination to an electron-poor metal center under... 

Thiamine diphosphate (TPP, 3), in cooperation with enzymes, is able to activate aldehydes or ketones as hydroxyalkyl groups and then to pass them on to other molecules. This type of transfer is important in the transketo-lase reaction, for example (see p. 152). Hydroxyalkyl residues also arise in the decarboxylation of 0x0 acids. In this case, they are released as aldehydes or transferred to lipoamide residues of 2-oxoacid dehydrogenases (see p. 134). The functional component of TPP is the sulfur- and nitrogen-containing thiazole ring. 

Hydroxyalkyl thioethers 134 reacted successively with n-butyllithium and lithium containing a catalytic amount of DTBB (5%), both in THF at —78°C, to form intermediates 135, which in a second step were aUowed to react with different electrophiles to yield, after hnal hydrolysis, the expected functionalized alcohols 136 (Scheme 50) " ... 

Acid-catalyzed intramolecular attack of nucleophilic hydroperoxide function on an oxirane ring results in formation of 3-(l-hydroxyalkyl)endoperoxides. For example, epoxidation of unsaturated hydroperoxide 320 affords oxirane-hydroperoxide 321 (66%), which through acid-catalyzed regioselective cyclization gives 1,2-dioxolane 322 (70%) (Scheme 79) . This type of reaction is applicable also to a more complex epoxide-hydroperoxide such as 323, which cyclizes to polyfunctionalized 5-membered cyclic... 

An unexpected reactivity in the functionalization of 2-acyl-l,3-dithianes has been reported by Mioskowski and co-workers. They found that 2-acyl-l,3-dithianes with no further heteroatom at the acyl side chain react with aldehydes to give 2-acyl-2-hydroxyalkyl-l,3-dithianes, whereas a silyl-protected hydroxy group in the side chain of the 2-acyl-l,3-dithiane led to formation of the aldol product at the opposite site of the carbonyl group. Acyl chlorides always react with 2-acyl-l,3-dithianes to give the enol esters (Scheme 81) <2003TL213>. 

Anandamide was isolated from water-insoluble fractions of the porcine brain. It binds to CB1 with rather moderate affinity (Ki 61 nM) and a low affinity for the CB2 receptor (Ki 1930 nM). The name anandamide is based on its chemical nature (an amide) and the Sanskrit word ananda meaning bliss. The chemical structure of anandamide can be divided into two major molecular fragments a polar ethanolamido head group and a hydrophobic arachidonyl chain. The polar head group comprises a secondary amide functionality with an N-hydroxyalkyl substituent while the lipophilic fragment is a non-conjugated c/ s tetraolefinic chain and an n-pentyl chain reminiscent of the lipophilic side chain found in the classical cannabinoids. A number of anandamide analogs have been synthesized and demonstrated to have considerable selectivity for the CB1 receptor in comparison to the CB2 receptor. 

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