Methods in Carbohydrate Chemistry (5 Bände). Bd. II: Reactions of Carbohydrates, herausgeg. von R. L. Whistler und M. L. Wolfrom. 1. Aufl., XV, 572 S., geb. ca. DM 78.50. Bd. III: Cellulose, herausgeg. von R. L. Whistler. 1. Aufl., XVI, 407 S., geb. ca. DM 63.50. Academic Press, Inc., New York‐London 1963

Schmidt, Otfried

doi:10.1002/ange.19630752220

Cited by 2 publications

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“…The syrupy acetate (100 mg) has then treated with a mixture of acetic anhydride (1 nil), acetic acid (0.5 mi), and sulfuric acid (0.02 ml) for 43 h. After work-up in the usual manner there was obtained 1,2,3,4,6-penta-0-acetyl-r-D- 2 in chloroform), was prepared by condensation of acetone with D-glj~cero-D-gulo-heptose as described by Brimacombe and Tucker (11) except that the sulfuric acid catalyst was replaced by zinc chloride -phosphoric acid (29) and in column chromatography ether was used in place of acetonetoluene. With zinc chloride -phosphoric acid instead of sulfuric acid as acetalation catalyst, the heptose appeared to dissolve.and react more readily with less formation of acetone condensation by-products.…”

Section: Generalmentioning

confidence: 99%

Epimerization of Monosaccharides Under Acetolysis Conditions

Sowa¹

1971

Can. J. Chem.

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Monosaccharides with a cis-configuration at C-2 and -3 readily undergo inversion at C-2 in an acetolysis medium composed of acetic acid, acetic anhydride, and sulfuric acid. The acetolysis-inversion reaction has been carried out with 2,3;5,6-di-0-isopropylidene-D-gulofuranose, 2,3;6,7-di-0-isopropylidene-D-glycero-D-gulo-heptose, 2,3-0-isopropylidene-D-ribose, D-ribose, and D-mannose using chromatography for isolation of the deacetylated epimeric products. The reaction requires a medium with a high concentration of acetic acid (ca. 90%) and appears to take place only with furanose structures. Inversions observed with the unsubstituted pyranoses D-ribose and D-mannose probably occur because of tautomerization to furanose forms. The epimerization proceeds in the direction which yields a smaller number of cis-oriented groups at C-2, -3, and -4 of the furanose forms of monosaccharides.

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Section: Generalmentioning

confidence: 99%

Epimerization of Monosaccharides Under Acetolysis Conditions

Sowa¹

1971

Can. J. Chem.

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Methods in Carbohydrate Chemistry. Herausgeg. v. R. L. Whistler, R. J. Smith, J. N. BeMiller und M. L. Wolfrom. Vol. IV: Starch. Academic Press, New York‐London 1964. 1. Aufl., XVI, 335 S., zahlr. Abb. u. Tab., geb. $ 13.50.

Husemann¹

1965

Angewandte Chemie

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Eine einfache Darstellungsmethode fur Chromoxydtrichlorid fanden R . B. Johannesen und H.-L. KrauJ. CrOC13 entsteht nach in siedendem BCl3 (+ 13 "C) bei gleichzeitigem Durchleiten von Stickstoff. Aus dem Reaktionsgemisch werden BC13 und restliches CrOzC12 durch Hochvakuumdestillation abgetrennt, anschlieoend sublimiert man CrOC13 an einen Kuhlfinger (-30 "C). So konnte eine homoopolare Cr(V)-Verbindung erstmals in guter Ausbeute (2 g = 50 %) gewonnen werden. / Chem. Ber. 97, 2094Ber. 97, (1964 / -Gn.[Rd 1651Alkoholische Derivate von Tetrahydro-6.14-endoatheno-thebain mit uberragender analgetischer Wirkung hat R. E. Lister untersucht. Wahrend das Opiumalkaloid Thebain selbst keine therapeutische Aktivitat besitzt, zeigen einige Tetrahydro-6.14-endo-atheno-Derivate Wirkungen, welche die des Morphins weit iiberragen. Die Derivate von ( 1 ) haben die beste analgetische Wirkung (Morphin = 1): 2060 (In), 5330 (la), (Ib),

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Cited by 2 publications

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Epimerization of Monosaccharides Under Acetolysis Conditions

Epimerization of Monosaccharides Under Acetolysis Conditions

Methods in Carbohydrate Chemistry. Herausgeg. v. R. L. Whistler, R. J. Smith, J. N. BeMiller und M. L. Wolfrom. Vol. IV: Starch. Academic Press, New York‐London 1964. 1. Aufl., XVI, 335 S., zahlr. Abb. u. Tab., geb. $ 13.50.

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