Alkaline Degradation of Periodate-oxidized Xylan ... - ACS Publications

rally to 1,2-anhydroglucopyranose. Onecannot but be impressed ... (14) C. M. McCloskey and G. H. Coleman, J. Org. Chcm., 10, 184. (1945). (15) . P. Ba...
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R O YL. WHISTLER,P.K. CHANG AND G. N. RICHARDS

hydro structures and we suggest that the polymerization of 1,6-anhydroglucose probably proceeds in part v i a some intermediate related structurally to 1,2-anhydroglucopyranose. One cannot but be impressed by the variety of compounds produced by these similar reactions under various experimental conditions, but the system is so complex that there seems little value in speculating on the effect of experimental factors 011 the course of the reaction. It is perhaps surprising that levoglucosan polymerizes a t all since it contains a fused five- and sixmembered ring. A bicyclic lactone of a similar 3 : 2 : 1 system does not polymerize and the driving force for the polymerization of the corresponding lactam is apparently supplied by the conversion of (14) C. M . McCloskey a n d G. H. Coleman, J . Org. Chenz., 10, 184 (1945). (15) M. P. Bardolph a n d G. €1. Coleman, ibid., 16, l(i0 (19501. (16) A. Dyberman and B. L i n d b c r g , A c t a Cheiu. Scaizd., 4 , 578

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a non-planar amide linkage in the nionoiiier into a planar one in the polymer in which more nitrogencarbonyl interaction was possible. Levoglucosan, however, is not in the preferred conformation for glycosidic structure^.^^ By opening the 1,6oxide ring, the more favorable ring conformation is permitted and this transformation to a lower energy state probably assists the polymerization. Acknowledgment.-The authors wish to acknowledge with gratitude the active interest and assistance of the Director of Portuguese Forest Service, Eng. J. Mendes Frazgo to J. daS. C. and the valuable financial support of the Caloustc Gulbenkian Foundation. Some exploratory experiments related to this research were carried out by A l r . Edwin J. Quinn and supported by the United States Army, Office of Ordnance Research 118) H K Hall, J r , THISJ O U R N A L , 80, 6112 (103s) (19) R E Reeves, rbzd , 71, 2116 (1910)

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(17) R. U. Lemieux a n d C . Ilricc, C Q J ZJ.. Chem., 30, 293 (1052).

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BIOCHEMISTRY, P E R D U E UNIVERSITY ]

Alkaline Degradation of Periodate-oxidized Xylan and Dextran' I ~ ROY Y L. WHISTLER,P. K. CHANG AND G. N. RICHARDS RECEIVED JANUARY 12, 1959 Xylan from corn cobs is oxidized with sodium metaperiodate and then treated with dilute sodium hydroxide solution a t room temperature. The major products are acidic, with glycolic and lactic acids predominating. Similarly, oxidized dextran from Leuconostoc mesenteroides, when treated with alkali in the same way, also yielded glycolic and lactic acids predominantly. It is concluded t h a t both oxidized polysaccharides undergo alkaline degradation mainly by 8-alkoxycarbonyl elimination, b u t t h a t alternative modes of degradation also occur, which yield glycolic but not lactic acid.

Recent work on the alkaline degradation of model compounds2and on periodate oxidized cellulose3 and starch4 has shown that both of the oxidized l-t4-linked glucans degrade in alkali predominantly by ,R-alkoxycarbonyl elimination a t the C5 position of the original D-ghlCOSe unit. Since othcr periodate-oxidized polysaccharides also contain the P-alkoxycarbonyl grouping, this type of degradation should be general. Xylan from corn cobsj5which is essentially linear and 1+-4-linked, is partially oxidized with sodiuni metaperiodate and the product treated with oxygen-free dilute sodium hydroxide a t room temperature. Acidic and neutral products are separated by ion exchange resins and the former are further resolved by paper chromatography. Glycolic and lactic acids are identified as the acidic products, together with formic acid and a resinous acidic product similar to that obtained from periodate oxy~ t a r c h . ~The results of semi-quantitative analyses are expressed in Table I. I t is concluded that the predominant course of alkaline degradation of periodate oxyxylan is (1) Journal Paper No. 1362 of t h e Purdue University Agricultural Experiment Station, L a f a y e t t e , I n d . ( 2 ) D. O ' M e a r a and G. N. Richards, .I, C h c m . Soc., 1201 (19.58); Chemistry f9Industvy, 41 (1958). (3) D. O'Meara and G. N. Richards, i n press. (4) R. L. Whistler, P. R. C h a n g a n d G. N. Richards, TIiIs J O U R N A L , 81,3133(1960). ( 2 ) R . L. \Vhistler, J . Ilachrach and D. I