A reducing sugar will undergo the Fehling reaction, which requires a(potential) free aldehyde group. Which of the disaccharides shown inFigure are reducing and which are nonreducing?

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Disaccharides with a-connections Disaccharides with B-connections CH,OH CH,OH CH,OH CH,OH Maltose: a-D-glucopyranosyl (1-4)a-D-glucopyranose Cellobiose: H. H. OH B-D-glucopyranosyl (1-4)8-D-glucopyranose H OH H но ОН Н но ОН Н OH H OH H OH OH H. OH OH a-D-Glc a-D-Glc B-D-Glc B-D-Glc CH,OH H. OH CH,OH CH,OH a,a-Trehalose: a-D-glucopyranosyl (1-1)a-D-glucopyranose Lactose: H. ОН Н B-D-galactopyranosyl (1-4)8-D-glucopyranose Но OH ΟΗ Η ОН Н ΟΗ Η H Но OH H OH H OH OH a-D-Glc a-D-Glc B-D-Gal B-D-Glc CH,OH CH,OH CH,OH CH, Sucrose: a-D-glucopyranosyl (1-2)B-D-fructofuranoside Gentiobiose: B-D-glucopyranosyl (1-6)8-D-glucopyranose H. H. OH OH H ОН Н но н но CH,OH ОН Н H. Но но OH OH H OH H a-D-Glc B-D-Fru B-D-Glc B-D-Glc (a) Disaccharides linked through the C-1 of the a anomer: maltose, trehalose, and sucrose. (b) Disaccharides with B linkage: cellobiose, lactose, and gentiobiose. A FIGURE 9.14 Structures of some important disaccharides. Shown are Haworth projections of the same molecules, with color-coded monomers: blue = glucose, pink = fructose, teal = galactose. Note the convention used to draw gly- cosidic bonds between monomers in disaccharides. The "curved bonds" allow the Haworth projections of the monomers to be drawn on the same line. 우