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A-Acetates

FIGURE 19 4 Electro static potential maps of (a) acetic acid and (b) acetate ion The negative charge (red) IS equally distributed between both oxygens of acetate ion The color range IS different for (a) and (b)... [Pg.797]

When side chains of two or more different kinds are attached to a cyclic component, only the senior side chain is named by the conjunctive method. The remaining side chains are named as prefixes. Likewise, when there is a choice of cyclic component, the senior is chosen. Benzene derivatives may be named by the conjunctive method only when two or more identical side chains are present. Trivial names for oxo carboxylic acids may be used for the acyclic component. If the cyclic and acyclic components are joined by a double bond, the locants of this bond are placed as superscripts to a Greek capital delta that is inserted between the two names. The locant for the cyclic component precedes that for the acyclic component, e.g., indene-A - -acetic acid. [Pg.22]

The configuration of the glucoside linkage is different in the two, however. Structures [I] and [II], respectively, illustrate that the linkage is a /3-acetal-hydrolyzable to an equitorial hydroxide—in cellulose, and an a-acetal-hydrolyz-able to an axial hydroxide—in amylose, a starch ... [Pg.18]

Fig. 5. The effect of dry heat exposure on acetate and triacetate fibers. Tested at 65% rh, 21°C after exposure. A, acetate, 100°C B, triacetate, 130°C and C,... Fig. 5. The effect of dry heat exposure on acetate and triacetate fibers. Tested at 65% rh, 21°C after exposure. A, acetate, 100°C B, triacetate, 130°C and C,...
Vitamin A acetate [11098-51-4] (2) is the commercially significant form of the vitamin and is mainly produced by Hoffmann-La Roche, BASF, and Rhc ne-Poulenc (Fig. 4). AH of these processes have P ionone (18) as their key intermediate and in this regard are based on work performed in the 1940s... [Pg.97]

Vitamin A palmitate [79-81-2] (3), a commercially important form of the vitamin, is produced from vitamin A acetate (2) via a transesterification reaction with methyl palmitate. En2ymatic preparation of the palmitate from the acetate has also been described (22). [Pg.98]

In other work, sulfone chemistry plays an integral part of the syntheses of both -carotene and vitamin A by workers at Kuraray. In this approach, the anion of C q P-cyclogeranyl sulfone (36) is condensed with the C q aldehyde (37). The resulting P-hydroxy sulfone (38) is treated with dihydropyran followed by a double elimination to yield vitamin A acetate. Alternatively, the P-hydroxy sulfone (38) can be converted to the 5-halo sulfone (39) and a similar double elimination scheme is employed (23,24) (Fig. 8). [Pg.99]

Dye-Sensitized Photoisomerization. One technological appHcation of photoisomerization is in the synthesis of vitamin A. In a mixture of vitamin A acetate (all-trans stmcture) and the 11-cis isomer (23), sensitized photoisomerization of the 11-cis to the all-trans molecule occurs using zinc tetraphenylporphyrin, chlorophyU, hematoporphyrin, rose bengal, or erythrosin as sensitizers (73). Another photoisomerization is reported to be responsible for dye laser mode-locking (74). In this example, one metastable isomer of an oxadicarbocyanine dye was formed during flashlamp excitation, and it was the isomer that exhibited mode-locking characteristics. [Pg.436]

Retinyl acetate [127-47-9] M 328.5, m 57". Separated from retinol by column chromatography, then crystd from MeOH. See Kofler and Rubin [Vitamins and Hormones (NY) 18 315 1960] for review of purification methods. Stored in the dark, under N2 or Ar, at 0°. See Vitamin A acetate p. 574 in Chapter 6. [Pg.348]

Methyldihydrostrychnidinium-A acetate is produced in much small amount in the hydrogenation ( internal alkylation) reaction and w isolated as the iodide, m.p. 345-350°, and converted to the chloric which on treatment with sodium methoxide gave methoxymethyltetr hydrostrychnidine (c in the above list) with some des-base-D, and < thermal decomposition yielded dihydrostrychnidine-A. These and oth reactions of des-base-D are regarded as best accounted for by formu (XVIII). ... [Pg.578]

Retinoids are needed for cellular differentiation and skin growth. Some retinoids even exert a prophylactic effect on preneoplastic and malignant skin lesions. Fenretlnide (54) is somewhat more selective and less toxic than retinyl acetate (vitamin A acetate) for this purpose. It is synthesized by reaction of all trans-retinoic acid (53), via its acid chloride, with g-aminophe-nol to give ester 54 (13). [Pg.7]

Show how resonance can occur in the following organic ions (a) acetate ion, CH,CO, (b) enolate ion, CH,COCH5, which has one resonance structure with a C=C double bond and an —O group on the central carbon atom (c) allyl cation, CH,CHCH,+ (d) amidate ion, CH,CONH (the O and the N atoms are both bonded to the second C atom). [Pg.213]

Suggest an explanation for the different strengths of (a) acetic acid and trichloroacetic acid (b) acetic acid and formic acid. [Pg.559]

See other pages where A-Acetates is mentioned: [Pg.520]    [Pg.348]    [Pg.31]    [Pg.825]    [Pg.838]    [Pg.1019]    [Pg.1058]    [Pg.104]    [Pg.5]    [Pg.98]    [Pg.98]    [Pg.429]    [Pg.127]    [Pg.139]    [Pg.186]    [Pg.494]    [Pg.825]    [Pg.838]    [Pg.1019]    [Pg.68]    [Pg.150]    [Pg.248]    [Pg.140]    [Pg.141]    [Pg.141]    [Pg.141]    [Pg.778]    [Pg.1271]    [Pg.96]    [Pg.239]    [Pg.403]    [Pg.200]    [Pg.255]    [Pg.5]    [Pg.323]   
See also in sourсe #XX -- [ Pg.62 , Pg.64 ]



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