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UEBER DIE KOHLENHYDRATE D. HEFE.
E. SALKOWSKI (Berl. Ber., 27, 3325).
~ON THE CARBOHYDRATES OF YEAST.~
The author has isolated the more resistant const.i.tuents of the cell-membrane by boiling with dilute alkalis, and exhaustively purifying with alcohol and ether.
The residue was only a small percentage (3-4 p.ct) of the original, and retained only 0.45 p.ct. N.
It was heated in a digester with water at 2-3 atm. steam-pressure, and thus resolved into approximately equal portions of soluble cellulose (a) and insoluble (b). The latter, giving no colour-reaction with iodine, is termed achroocellulose; the former reacts, and is therefore termed erythrocellulose. The former is easily separated from its opalescent solution. It has the empirical composition of cellulose. In the soluble form it resembles glycogen. The achroocellulose is isolated in the form of h.o.r.n.y or agglomerated ma.s.ses. It appears to be resolved by ultimate hydrolysis into dextrose and mannose.
SECTION V. FURFUROIDS, i.e. PENTOSANES AND FURFURAL-YIELDING CONSt.i.tUENTS GENERALLY
(1) ~Reactions of the Carbohydrates with Hydrogen Peroxide.~
C. F. CROSS, E. J. BEVAN, and CLAUD SMITH (J. Chem. Soc., 1898, 463).
(2) ~Action of Hydrogen Peroxide on Carbohydrates in the Presence of Ferrous Salts.~
R. S. MORRELL and J. M. CROFTS (J. Chem. Soc., 1899, 786).
(3) ~Oxidation of Furfuraldehyde by Hydrogen Peroxide.~
C. F. CROSS, E. J. BEVAN, and T. HEIBERG (J. Ch. Soc., 1899, 747).
(4) EINWIRKUNG VON Wa.s.sERSTOFFHYPEROXID AUF UNGESaTTIGTE KOHLENWa.s.sERSTOFFE.
C. F. CROSS, E. J. BEVAN, and T. HEIBERG (Berl. Ber., 1900, 2015).
~ACTION OF HYDROGEN PEROXIDE ON UNSATURATED HYDROCARBONS.~
The above series of researches grew out of the observations incidental to the use of the peroxide on an oxidising agent in investigating the hydrolysed furfuroids (102). Certain remarkable observations had previously been made by H. J. H. Fenton (Ch. Soc. J., 1894, 899; 1895, 774; 1896, 546) on the oxidation of tartaric acid by the peroxide, acting in presence of ferrous salts, the --CHOH--CHOH-- residue losing H_{2} with production of the unsaturated group, --OH.C=C.OH--. These investigations have subsequently been considerably developed and generalised by Fenton, but as the results have no immediate bearing on our main subject we must refer readers to the J. Chem. Soc., 1896-1900.
From the mode of action diagnosed by Fenton it was to be expected that the CHOH groups of the carbohydrates would be oxidised to CO groups, and it has been established by the above investigations (1) and (2) that the particular group to be so affected in the hexoses is that contiguous to the typical
--CO
group. There results, therefore, a dicarbonyl derivative ('osone'), which reacts directly with 2 mol. phenyl hydrazine in the cold to form an osazone. This was directly established for glucose, laevulose, galactose, and arabinose (2). While this is the main result, the general study of the product shows that the oxidation is not simple nor in direct quant.i.tative relationship to the H_{2}O_{2} employed. The molecular proportion of the aldoses affected appears to be in considerable excess, and the reaction is probably complicated by interior rearrangement.
In the main, the original aldehydic group resists the oxidation. But a certain proportion of acid products are formed, probably tartronic acid.
On distillation with condensing acids a large proportion of volatile mon.o.basic acids (chiefly formic) are obtained. The proportion of furfural obtained amounts to 3-4 per cent. of the weight of the original carbohydrate.
Since the general result of these oxidations is the subst.i.tution of an OH group for an H atom, it was of interest to determine the behaviour of furfural with the peroxide. The oxidation was carried out in dilute aqueous solution of the aldehyde at 20-40, using 2-3 mols. H_{2}O_{2} per 1 mol. C_{5}H_{4}O_{2}. The main product is a hydroxyfurfural, which was separated as a hydrazone. A small quant.i.ty of a mon.o.basic acid was formed, which was identified as a hydroxypyromucic acid. Both aldehyde and acid appear to be the alpha beta derivatives. The aldehyde gives very characteristic colour reactions with phloroglucinol and resorcinol in presence of hydrochloric acid, which so closely resemble those of the lignocelluloses that there is little doubt that these particular reactions must be referred to the presence of the hydroxyfurfural as a normal const.i.tuent.
The study of these oxidations was then extended to typical unsaturated hydrocarbons--viz. acetylene and benzene. (4) From the former the main product was acetic acid, but the attendant formation of traces of ethyl alcohol indicates that the hydrogen of the peroxide may take a direct part in this and other reactions. This view receives some support from the fact that the interaction of the H_{2}O_{2} with permanganates has now been established to be an oxidation of the H_{2} of the peroxide by the permanganate oxidation, with liberation, therefore, of the O_{2} of the peroxide as an unresolved molecule [Baeyer].
Benzene itself is also powerfully attacked by the peroxide when shaken with a dilute solution in presence of iron salts. The products are phenol and pyrocatechol, with some quant.i.ty of an amorphous product probably formed by condensation of a quinone with the phenolic products of reaction.
These types of oxidation effects now established give a definite significance to the physiological functions of the peroxide, which is a form of 'active oxygen' of extremely wide distribution. It would have been difficult _a priori_ to devise an oxidant without sensible action on aldehydic groups, yet delivering a powerful attack on hydrocarbon rings; or to have suggested a synthesis of the sugars from tartaric acid with a powerful oxidising treatment as the first and essential stage in the transformation.
Our present knowledge of such actions and effects suggests a number of new clues to genetic relationships of carbon compounds within the plant.
The conclusion is certainly justified that the origin of the pentoses is referable to oxidations of the hexoses, in which this form of 'active oxygen' plays an important part.
We must note here the researches of O. Ruff, who has applied these oxidations with important results in the systematic investigation of the carbohydrates.
UEBER DIE VERWANDLUNG DER _D_-GLUCONSaURE IN _D_-ARABINOSE (Berl. Ber., 1898, 1573).
~CONVERSION OF _D_-GLUCONIC ACID INTO _D_-ARABINOSE.~
_D_ UND _L_ ARABINOSE (_Ibid._ 1899, 550).
ZUR KENNTNISS DER OXYGLUCONSaURE (_Ibid._ 1899, 2269).
~ON OXYGLUCONIC ACID.~
Ruff in these researches has realised a simple and direct transition from the hexoses to the pentoses. By oxidising gluconic acid with the peroxide the beta --CHOH-- group is converted into carbonyl at the same time that the terminal COOH [alpha] is oxidised to CO_{2}. The yields of the resulting pentose are large. Simultaneously there is formed an oxygluconic acid, which appears to be a ketonic acid of formula --CH_{2}OH.CO.(CHOH)_{3}.COOH--.
From these results we see a further range of physiological probabilities; and with the concurrent actions of oxygen in the forms of or related to hydrogen peroxide on the one side, and ozone on the other, we are able to account in a simple way for the relationships of the 'furfuroid' group, which may include a number of intermediate terms in the hexose-pentose series.
Following in this direction of development of the subject is a study of the action of persulphuric acid upon furfural.
EINWIRKUNG DES CARO'SCHEN REAGENS AUF FURFURAL.
C. F. CROSS, E. J. BEVAN, and J. F. BRIGGS (Berl. Ber., 1900, 3132).
Regarding this reagent as another form of 'active oxygen,' it is important to contrast its actions with those of the hydrogen peroxide.
Instead of the beta-hydroxyfurfural (_ante_, 115) we obtain the delta-aldehyde as the first product. The aldehydic group is then oxidised, and as a result of attendant hydrolysis the ring is broken down and succinic acid is formed, the original aldehydic group of the furfural being split off in the form of formic acid. The reactions take place at the ordinary temperature and with the dilute form of the reagent described by Baeyer and Villiger (Ber. 32, 3625). These results have some special features of interest. The alpha delta-hydroxyfurfural has similar colour reactions to those of the alpha beta-derivative, and may also therefore be present as a const.i.tuent of the lignocelluloses.
The tendency to attack in the 14 position in relation to an aldehydic group further widens the capabilities of 'active oxygen' in the plant cell. Lastly, this is the simplest transition yet disclosed from the succinyl to furfural grouping, being effected by a regulated proportion of oxygen, and under conditions of reaction which may be described as of the mildest. In regard to the wide-reaching functions of asparagin in plant life, we have a new suggestion of genetic connections with the furfuroids.
VERGLEICH DER PENTOSEN-BESTIMMUNGSMETHODEN VERMITTELST PHENYLHYDRAZIN UND PHLOROGLUCIN.