Reducible groups

Ultraviolet. Benzene has a series of relatively low intensity absorption bands in the region of 230 to 270 nm. When there is a substituent on the ring with nonbonding electrons, such as an amino group, there is a pronounced increase in the intensity of these bands and a shift to longer wavelength. Aniline shows an absorption band at 230 nm (e = 8600) and a secondary band at 280 nm (e = 1430). Protonation of the amino groups reduces these effects and the spectmm resembles that of the unsubstituted benzene. 

MonoaLkylation using small alkyl groups of the 1-, 2 - and 3 -amines tends to reduce potency somewhat, whereas alkylation of the 3-amino group reduces activity considerably (147). 1-/V-Alkylation, as in the case of 1-A[-acylation, can lead to resistance to some bacterial resistance reactions, eg,... 

Diaminoazobenzene was reported by Nietzki to have been prepared by diazotizing -nitroaniline and coupling the product with aniline. The resulting 4-nitrodiazoaminobenzene is rearranged and the nitro group reduced. The submitters tried several times to carry out this procedure but were unsuccessful. 4,4 -Diaminoazobenzene has been prepared by the oxidation of -nitroaniline with potassium persulfate followed by the reduction of the nitro groups. ... 

Reactive end groups, reducing branching of the polychloroprene and facilitating processing. 

A 17a-hydroxyl group reduces the reactivity of the 20-ketone but direct ketalization with ethylene glycol is not impeded, Ketalization can also be effected in the presence of 17a- and/or 21-hydroxy substituents. Thus the 3,20-biscycloethyleneketal (88) is obtained from (87) in high yield by the direct procedure, or better by distillation under vacuum without a diluent. A bromine atom at C-17 and a 21-acetoxy group even in the absence of a 17a-hydroxyl group strongly hinder ketalization at C-20. ... 

Cleavage is effected with acid. The following table compares the acidolysis rates with Bn and cyclohexyl esters in TFA/phenol at 43°. The Dmp group reduces aspartimide formation during Fmoc-based peptide synthesis. 

Nucleophilic aromatic substitution of the anthranilic acid derivatives, 72, on ortho-bromonitrobenzene affords the diphenyl-amine, 73. The ester is then saponified and the nitro group reduced to the amine (74). Cyclization of the resulting amino acid by heat affords the lactam (75). Alkylation on the amide nitrogen with 2-dimethylaminoethyl chloride by means of sodium amide affords dibenzepine (76). ... 

RedJ27 Redfield, J. H. The theory of group reduced distributions. Amer. J. Math. 49 (1927) 433-455. 

TABLE 3-1 Functional Groups Reducible at the Dropping Mercury Electrode... 

Longer carbon chains can also be added, such as carboxyethyl groups, or carboxypropyl groups. Adding bulky functional components like carboxymethyl and carboxyethyl groups reduces the tendency of the starch to recrystallize. When the starch stays as a gel, a product is softer, and we refer to it as fresh. When the starch regains its crystalline form, the product becomes firmer, and we refer to it as stale. The technical term for this recrystallization is starch retrogradation. 

The next two examples illustrate more complex surface reaction chemistry that brings about the covalent immobilization of bioactive species such as enzymes and catecholamines. Poly [bis (phenoxy)-phosphazene] (compound 1 ) can be used to coat particles of porous alumina with a high-surface-area film of the polymer (23). A scanning electron micrograph of the surface of a coated particle is shown in Fig. 3. The polymer surface is then nitrated and the arylnitro groups reduced to arylamino units. These then provided reactive sites for the immobilization of enzymes, as shown in Scheme III. 

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