THERMODYNAMIC CALCULATIONS FOR THE Mo-C-H SYSTEM

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Dec. 5, 1956

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chromatography as previously described.la Xylulose was identified by its characteristic reaction in the cysteinecarbazole and orcinol reaction, its optical rotation, O!24D -33' (Hz0, c 1.35), its behavior on paper chromatography WILLIAMD. EMMONS in saturated phenol-water, and by the formation of a crysROHMAND HAASCOMPANY talline p-bromophenylhydrazone, the melting point of DIVISION REDSTONE ARSENAL RESEARCH which remained unchanged a t 126-128' when mixed with a HUNTSVILLE, ALABAMA similar derivative prepared from authentic ~-xylulose. RECEIVED OCTOBER 29, 1956 0 The ribulose fraction exhibited an optical rotation of cyz4: -15' (H20, c 0.90)and the ribose a rotation of L Y ~ -22 ~ D (H20, c 0.45). The identity of both sugars was further ENZYMATIC PHOSPHORYLATION OF D-XYLULOSE checked by paper chromatography and colorimetric analysis IN LIVER as above.

brucine in boiling methylene chloride. Under these circumstances the brucine is converted to the insoluble brucine-N-oxide in quantitative yield.

Sir: L-Xylulose, a naturally occurring sugar found in urine, has been shown to be glucogenic in diabetic dogs although the mechanism has been hitherto unknown.' Recently Touster, et al.,203have reported that L-xylulose may be converted to Dxylulose in guinea pig liver. Since D - x U j P 4 is readily converted to G 6P,6J it is clear that the phosphorylation of D-xylose in mammalian tissue is the only missing step in the formation of glucose from L-xylulose. The present finding of D-XylUlOkinase in liver completes this reaction sequence and supports the hypothesis of Touster which may be formulated as

TPNH

D-Xylulokinase has been purified about 10-fold from a water extract of calf liver acetone powder and shown to be specific for D-xylulose. The preparation was inactive toward D-xylose, Lxylulose, D-ribulose, D-ribose and D-fructose. The partially purified enzyme was free from transketolase but was contaminated with phosphoketopentoepimerase and phosphoribose isomerase. Consequently the over-all reaction observed was D-xylUlOse

+ ATP

- xylulokinase

epimerase

D-xU5p

isomerase D-RU5P

D-R5P

DPX

Following incubation of ATP and D-xylulose with the enzyme preparation, the reaction mixture was found to contain all three phosphate esters in Pentose ATP D-XylUOSe D - X U ~7 P G 6.P + glucose the quantities shown in Table I. The inability of the enzyme preparation to cycle react with either D-ribose or D-ribulose eliminated TABLE I the possibility that either of these sugars might ASSAYOF THE D-XYLULOKINASE REACTION PRODUCTS have served as substrate with subsequent conversion to D-XUSP, It is therefore clear that Phosphate ester Dephosphorylated Component formed' sugar recovered mammalian tissue does possess the complete pmoles pmoles enzymatic structure necessary to carry out the Xylulose 150b 100' conversion of L-xylulose to D-glucose as postulated Ribulose 100" 67' by Touster. The identity of the enzymatic step, 559 Ribose 80d or steps, which are lacking in essential pentosuria Total 330 222 remains to be determined.

L-xylulose

___f

xylitol

__f

f--

The reaction mixture containing 1000 pmoles each of D-XylUlOSe, ATP and MgCl2 was incubated with 100 mg. of the enzyme preparation in a total volume of 150 ml. of 0.02M triethanolamine buffer, p H 7.6, for 30 minutes a t 37". The reaction was stopped with perchloric acid and the supernatant treated with Norite to remove the adenine nucleotides. The filtrate was neutralized and the sugar phosphates precipitated by the addition of barium acetate and ethanol. The dry barium salt contained 360 pmoles of total phosphorus and 30 rmoles of inorganic phosphorus. Xu5P was determined by a specific enzymatic assay employing rat liver transketolase and triosephosphate Ru5P was measured by the cysteinedehydrogenase.' carbazole method,* allowance being made for the Xu5P present. R5P was assayed by the phloroglucinol reaction of Dische.9 e Further confirmation of the identity of the reaction products was obtained by enzymatic dephosphorylation and isolation of the free sugars by Dowex-1 borate (I

(7) Method to be published elsewhere. (8) Z. Discheand E. Borenfreund, J . Biol. Chcm., 192, 583 (1951). (9) The authors are grateful to Dr. Dische for kindly making the details of his method available in advance of publication. (10) G.Ashwell and J. Hickman, THISJOURNAL, 76, 5889 (1964).

NATIONAL INSTITUTE OF ARTHRITIS METABOLIC DISEASES JEAN HICKMAN INSTITUTES OF HEALTH GILBERTASHWELL NATIONAL UNITEDSTATES PUBLIC HEALTHSERVICE BETHESDA, MARYLAND RECEIVED OCTOBER 17, 1956

AND

THERMODYNAMIC CALCULATIONS FOR THE MoC-H SYSTEM Sir :

(1) H. W. Larson, W. H. Chambers, N. R. Blatherwick, M. E. Browning and Emmett' have reported on Ewing and S. D . Sawyer, J . B i d . Chem., 129,701 (1939). "Equilibrium Measurements in the Mo-C-H (2) 0. Touster, V. H. Reynolds and R . M. Hutcheson, ibid.. 221, 697 System," the equilibria investigated being (1956). (3) S. Hollmann and 0. Touster, THISJOURNAL, 78,3544 (1956). 2 MO CHI = M o ~ C 2Hz K I = (Hz)'/CH, (1) (4) These abbreviations are used: D - X U ~ P D-xylulose , 5-phosphate; and G 6P, glucose 6-phosphate; D - R u ~ P D-ribulose , 5-phosphate: DR5P, D-ribose 5-phosphate; ATP, adenosinetriphosphate; TPNH, MozC CHd = 2MoC 4-2H2 Kz = (H*)'/CH, (2) reduced triphosphopyridine nucleotide; DPN, diphosphopyridine nucleotide. From a plot of log Kpvs. 103/T, OK. for reactions (5) P. A. Srere, J. R. Cooper, V. Klybas and E. Racker, Arch. (1) and (2), Browning and Emmett calculated the Biochem. Bioghys., 69,535 (1955). (1) L. C. Browning and P. H. Emmett, THISJOURNAL, 74, 4773 ( 6 ) B. L. Horecker, J. Hurwitz and P. 2. Smyrniotis, THIS JOURNAL, 78, 692 (1956). (1952).

+

+

+

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free energy change a t 950°K. to be - 12,172 cal./ mole for reaction (1) and -S69 cal./mole for reaction (2). From these values, they further calculated free energies a t 950 OK. for the reactions Mo f C (&graphite) = MoC

A F O ~ M ~=K .

-3,211 cal./niole ~ ~-8,862cal./mole 2Mo f C = Mo2C A F o e s o = MoC f Mo = MozC A F o O M 0 ~