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Non-reducing terminals

In formula XII, A = reducing terminal unit (negligible). B = non-reducing terminal unit B consumes two molecules of oxidant to give one molecule of formic acid. C = point of branching. Each non-terminal unit (in the chains BC and elsewhere in the interior of the molecule) consumes one molecule of oxidant but produces no formic acid.]... [Pg.21]

Starch source D. P.a from osmotic measurements Unit-chain length from methylation Unit-chain length from periodate oxidation No. of non-reducing terminal groups/ molecule References... [Pg.355]

Traditionally, the glycosidases used for synthetic purposes are exoglyco-sidases, which transfer only the non-reducing terminal monosaccharide unit... [Pg.309]

Fig. 25 Moffatt reaction at a non-reducing terminal glucose unit in dextran... Fig. 25 Moffatt reaction at a non-reducing terminal glucose unit in dextran...
The importance of the non-reducing terminal structure Gal61-3GlcNAc can be seen by comparing activities of lacto-N-tetraose with lacto-N-neotetraose which is identical except that galactose is linked to the 4 position of N-acetylglucosamine. [Pg.96]

Legend O a-glucose residues I Walker and Whelan structure (3) II Corf and Larner structure (2) NRT non-reducing terminal A A-cheln B B-chaln ... [Pg.132]

Brown GM, Huckerby TN, Abram BL, Nieduszynski lA. Characterization of a non-reducing terminal fragment from bovine articular cartilage keratan sulphates containing a (2-3)-hnked sialic acid and a (l-3)-linked fucose. Biochem. J. 1996 319(1) 137-141. [Pg.649]

The non-reducing terminal structure of BCG-CWS contains both a- and /3-arabinofuranoses. To construct the structure [124,125,126,127,128], the methodology for both a- and /3-con-... [Pg.1646]

The systematic nomenciature introduced by Demon and Costeiio [39]. A, B, and C refer to non-reducing terminal fragments whereas X, Y and Z represent reducing terminal fragments... [Pg.2202]


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See also in sourсe #XX -- [ Pg.90 , Pg.91 ]




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Reducing terminals

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