Amino masked

Circular dicliroism has been a useful servant to tire biophysical chemist since it allows tire non-invasive detennination of secondary stmcture (a-helices and P-sheets) in dissolved biopolymers. Due to tire dissymmetry of tliese stmctures (containing chiral centres) tliey are biaxial and show circular birefringence. Circular dicliroism is tlie Kramers-Kronig transfonnation of tlie resulting optical rotatory dispersion. The spectral window useful for distinguishing between a-helices and so on lies in tlie region 200-250 nm and hence is masked by certain salts. The metliod as usually applied is only semi-quantitative, since tlie measured optical rotations also depend on tlie exact amino acid sequence. 

Amino acid anion 1743-1729 Often masked by water deformation band near... 

The phenyl group became a practical protective group for carboxylic acids when Sharpless published a mild, effective one-step method for its conversion to a carboxylic acid. It has recently been used in a synthesis of the amino acid statine, where it served as a masked or carboxylic acid equivalent. ... 

The enantioselective inverse electron-demand 1,3-dipolar cycloaddition reactions of nitrones with alkenes described so far were catalyzed by metal complexes that favor a monodentate coordination of the nitrone, such as boron and aluminum complexes. However, the glyoxylate-derived nitrone 36 favors a bidentate coordination to the catalyst. This nitrone is a very interesting substrate, since the products that are obtained from the reaction with alkenes are masked a-amino acids. One of the characteristics of nitrones such as 36, having an ester moiety in the a position, is the swift E/Z equilibrium at room temperature (Scheme 6.28). In the crystalline form nitrone 36 exists as the pure Z isomer, however, in solution nitrone 36 have been shown to exists as a mixture of the E and Z isomers. This equilibrium could however be shifted to the Z isomer in the presence of a Lewis acid [74]. 

In the 3-adrenergic blocking drug pyrroxan (48), the catechol moiety is masked in a doxane ring. The synthesis begins by alkylation of phenyl acetonitrile by 2-chloroethanol to produce alcohol Recuction converts this to amino alcohol which... 

An unusual solvent system was chosen for the intramolecular reductive alkylation of the masked amino ketone (15). The purpose of the strongly acid system was to prevent cyclization of the deblocked amino ketone to 16, further hydrogenation of which gives the unwanted isomer 17 by attack at the convex face. The desired opposite isomer can be obtained by reduction of 16 with UAIH4 (52). 

Isoxazoles are stable toward many reagents yet undergo alkylation and hydrogenolysis readily. These features make isoxazoles, which may be considered masked diketones, a useful grouping in synthesis (22). Alkylation of 3,5-dimethyllsoxazole, followed by hydrogenolysis and hydrolysis, have been used to prepare a number of diketones (44) and tetraones (4i). Isoxazoles can be opened readily lo the amino ketone, a vinylogous amide (9). 

A-Acido imines (R R"C = N —X=0) like /V-acyl (X = CR) /V-sulfonyl [X = S(R)=0]2-7 or /V-diphenylphosphinoylimines [X = P(C6H5)2]3 are masked inline derivatives of ammonia. Compared to the imines themselves these activated derivatives are better electrophiles showing less tendency to undergo undesired deprotonation rather than addition of organometal-lics1812 The apparent advantages of these compounds have been exploited for asymmetric syntheses of amines, amides, amino acids and /J-lactams1-8 I6. 

TV-aluminum imines are another example of masked inline derivatives of ammonia. They are easily synthesized by partial reduction of nitriles with diisobutylaluminum hydride (D1BAL-H)6. Addition of lithium organic reagents to /V-aluminum iniines 7 derived from O-protected cyanohydrins 6 provides a-amino alcohols 8a and 8b in moderate yields and low to good diastereo-selectivities n 12. 

In salt substitutes, the metallic or bitter taste of potassium chloride is often masked by other ingredients, such as the amino acid L-lysine, tricalcium phosphate, citric acid, and glutamic acid. 

This fully aromatic amide, based oil the amino acid p-aminobenzoic acid, can be spontaneously synthesized from p-aminobenzoic chloride.7 9 72 To prevent this occurring at an unwanted moment, the amine group is masked by forming the hydrochloric acid salt with hydrochloric acid. 

FIG. 2 Nonnucleoside linker containing a masked amino or sulfhydryl reactive center. Copyright 2001 Marcel Dekker, Inc. 

Typically, isoxazolidines are employed as masked (3-amino alcohols which can be released under mild reduction conditions, but other different transformations leading to a variety of useful functionalities are also available as shown by some of the following examples. The... 

In a paper concerned with the synthesis of fused pyridazines, the isoxazole 13 was used as a masked amino alcohol, which was eventually used to construct a fused pyridine ring. A standard hydrazine reaction, followed by hydrogenolysis of the isoxazole of the intermediate... 

Maleic acid is a linear four carbon molecule with carboxylate groups on both ends and a double bond between the central carbon atoms. The anhydride of maleic acid is a cyclic molecule containing five atoms. Although the reactivity of maleic anhydride is similar to other cyclic anhydrides, the products of maleylation are much more unstable toward hydrolysis, and the site of unsaturation lends itself to additional side reactions. Acylation products of amino groups with maleic anhydride are stable at neutral pH and above, but they readily hydrolyze at acid pH values around pH 3.5 (Butler et al., 1967). Maleylation of sulfhydryls and the phe-nolate of tyrosine are even more sensitive to hydrolysis. Thus, maleic anhydride is an excellent reversible blocker of amino groups to temporarily mask them from reactivity while another... 

A rapid approach to ot-amino /1-lactams has been developed by Bose and uses the tetrachlorophthalimido group as a masked amino substituent (Scheme 9.70) [118]. The trans /1-lactam 218a could be obtained almost exclusively in 98% yield after 3-5 min under strong microwave irradiation. Under classical conditions the cis isomer (218a 218b = 10 90) is obtained in 52% yield. 

Increasing interest is expressed in diastereoselective addition of organometallic reagents to the ON bond of chiral imines or their derivatives, as well as chiral catalyst-facilitated enantioselective addition of nucleophiles to pro-chiral imines.98 The imines frequently selected for investigation include N-masked imines such as oxime ethers, sulfenimines, and /V-trimcthylsilylimines (150-153). A variety of chiral modifiers, including chiral boron compounds, chiral diols, chiral hydroxy acids, A-sull onyl amino acids, and /V-sulfonyl amido alcohols 141-149, have been evaluated for their efficiency in enantioselective allylboration reactions.680... 

A further complication for immunolocalization studies is that the fixatives used to preserve the tissue chemically modify the antigens that are the target of the antibodies. The aldehyde fixatives attack the amino side chains of proteins that eliminate many epitopes. Osmium postfixation is far more destructive of antigenicity and, as a general rule, osmium most often permanently destroys the possibility of immunocytochemical assay. There are many examples of immunocytochemical assay being conducted on osmicated tissue (2) and many others in which the osmium is chemically removed from the sections by oxidation with periodate restoring antigenicity that had previously been masked by the bound... 

---