Amino ethers

Several publications describe reactions of starch with reagents containing amino groups. The amino reagents used in such reactions are listed in Table II. Either starch amino esters or starch amino ethers result, depending on the reagent used. 

Most of the amino starches described in the literature contain amino groups in the side chains. They can be introduced either directly or indirectly. The latter case is illustrated by the reaction of starch with 4-nitrobenzoy 1 chloride, followed by reduction of the 4-nitrobenzoylated starch with aqueous sodium hydrogensulfite2417 or thiourea dioxide2418 to give (4-aminobenzoyl)starch.2417 

The formation of a trinicotinate was reported.2409 The best method of preparing this starch derivative involved reacting nicotinoyl chloride hydrochloride and starch in boiling pyridine.2410 Starch isonicotinates and 4-(sulfinylamino)benzoates were subsequently prepared. Starch isonicotinate was further cationized by treating it in nitromethane solution with methyl 2-(chloroacetyl)lactate or benzoylhydrazide A-chloroacetate and l-[2-(chloroacetoxy)propanoyl]-3-methylpyrazole.2411 

Various aminoalkyl and alkylaminoalkyl halides react with starch in alkaline media and are readily available by the reaction of epichlorohydrin with primary, secondary, and tertiary amines and even aqueous ammonia. Prior to the reaction with starch, the quaternary ammonium compounds were either decomposed to free amines, or they reacted as amminium compounds to give cationic aminium starches. Cationic starches were produced by the reaction of starch with arylalky-laminoalkyl epoxides. In the presence of formaldehyde, inorganic ammonium salts provided the source of amino groups.1316 

Products free of unreacted epihalohydrin were provided by glycidyltrialkyl-ammonium acetates.2390 Starch underwent crosslinking by epichlorohydrin 

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Reaction with Oxygen Nucleophiles. In the presence of strong acids, eg, H2SO4, HBF, or BF, aziridines react with alcohols to form P-amino ethers (93) ... 

When a better leaving group than LiNSC R (e.g., OMe) is present at the a-position, retention of the potentially useful sulfonamide moiety occurs (e. g., in the conversion of aziridine 271 into the highly functionalized amino ether 272 Scheme 5.69) [98]. It should be noted that the analogous chemistry with epoxides of allylic diethers failed this could again (see above) be possibly due to the higher pKa of the epoxide proton relative to the aziridine proton. 

Table 1. Enantioselectivc Addition of Organolithium Reagents to Imines 1 Mediated by the Enantiomerically Pure Amino Ether 241...

This reaction is analogous to 10-7. It may be acid (including Lewis acids),base, or alumina catalyzed, occur with electrolysis, and may occur by either an SnI or Sn2 mechanism. Many of the P-hydroxy ethers produced in this way are valuable solvents, for example, diethylene glycol, Cellosolve, and so on. Reaction with thiols leads to hydroxy thioethers. Aziridines can similarly be converted to P-amino ethers. 

Tertiary amines can be prepared by the reazction of amino ethers with Grignard... 

More typical examples are the amino ethers (3) used as anti-histamine or anti-Parkinson drugs according to the substituents. These are obviously derived from the alcohols (4) which are made from an aryl Grignard reagent and a benzaldehyde. Either starting material may bear the substituent X the choice can be made according to availability and so that side reactions are avoided,... 

Asymmetric addition to ketimine in a reagent controlled manner has seldom been reported, even by 2008. When we investigated the potential for tbis asymmetric addition around 1992, there were no known examples. In 1990, Tomioka et al., reported the first asymmetric addition of alkyl lithium to N-p-methoxyphenyl aldo-imines in the presence ofa chiral (3-amino ether with 40-64% ee [8] (Scheme 1.11). In 1992, Katritzky reported the asymmetric addition of Et2Zn to in situ prepared N-acyl imine in the presence of a chiral (3-amino alcohol with 21-70% ee [15] (Scheme 1.12). In the same year, Soai et al., reported the asymmetric addition of dialkylzinc to diphenylphosphinoyl imines in the presence of chiral (3-amino alcohols with 85-87% ee [16] (Scheme 1.13). These three reports were, to the best of... 

The variety and extent of research devoted to ligands carrying both O- and N-donors is simply immense. The type of cobalt(III) systems extant include amino acids, amino alcohols, amino ethers, amino phosphates, amino phenolates, as well as amide and imine analogs of these. These are met as simple chelates or more elaborate polydentates. Here, we highlight a strictly limited selection of examples to illustrate the type of systems reported no attempt at exhaustive review has been made. 

Alkylations of phenols with epichlorohydrin under PTC conditions and microwave irradiation were described twice in 1998. Subsequently, ring-opening reactions of the epoxide group were also performed using microwaves (Eqs. 20 and 21) [31, 32]. In the first catalytic synthesis of chiral glycerol sulfide ethers was described [31] in the second biologically active amino ethers were prepared [32],... 

Lewis acid catalysis enormously enriches the scope of Diels-Alder reactions, but it is limited to reagents containing Lewis basic sites, i.e. functional groups with lone pairs such as carbonyl, amino, ether or nitro close to the reaction centre. As we have seen in the discussion about the FMO aspects of Lewis acids, the major reason for catalysis is the reduction of the HOMO-LUMO gap. In case of Diels-Alder reactions with normal electron demand, it follows that the coordination of the Lewis acid lowers the LUMO energy of the dienophile. Such interactions are only possible if there is a spatial proximity or an electronic conjugation between the coordinated Lewis basic site and the reaction centre. Fortunately, in nearly every Diels-Alder reaction one of the reagents, mostly the dienophile, meets this requirement. 

Norpseudoephedrine-derived amino ether 81 was also used as a chiral coordinating agent for the enantioselective [2,3]-Wittig rearrangement. The rearrangement of propargyl ether 82 induced by n-BuLi/81 provided allenyl alcohol (5 )-83 in 62% ee (equation 45). In contrast, a similar reaction with (-)-24 provided only 9% ee of (S)-S3. 

Chiral macrocyclic amino-ethers have been prepared recently (69). Ligands of type E are obtained by attaching a chain (or two chains, one at each Z center to the type D macrocycles (81). The synthesis of macro-cyclic peptides will not be discussed here. 

High yields and diastereoselectivities have also been observed for the addition of Grignard reagents to imines like 221 derived from phenylglycinol (222), which are existing in equilibria with 1,3-oxazolidines. Also, the imine derived from methoxyacetone affords amino-ethers with excellent diastereoselectivities. The addition of a Lewis acid (MgBr2) has a strong effect on both the yield and the selectivity (equation 151) . ... 

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