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Double bond trans

The irans form, b.p. 143 "C, m.p. — 6 "C is of stereochemical interest since it is the smallest carbocyclic ring capable of accommodating a trans double bond. [Pg.123]

In an efficient diastereo-differentiative assembly of three components of norbornene, tv. v-alkenyl iodide, and KCN, the isomerization of the cis to the trans double bond takes place to give the coupled product 224. The isomerization is explained by the formation of the cyclopropane 222. its rearrangement to give a irans double bond in 223, and trapping with CN anion to give 224[168],... [Pg.161]

In the carbonylation of trans,trans,cis-CDT, the trans double bond is attacked preferentially to give the monoester 10, and then the diester 11. Attack of the cis double bond to give the triester is slow[15]. Only the C-16 alkene was carbonylated regio- and stereoselectively to give the Ibo-carboxy-late 12 by carbonylation of the C-5 and C-16 unsaturaied steroid[]6]. [Pg.513]

When the groups on either end of a double bond are the same or aie shuctuially sum lar to each other it is a simple matter to describe the configuration of the double bond as CIS or trans Oleic acid for example a compound that can be obtained from olive oil has a CIS double bond Cmnamaldehyde responsible for the characteristic odor of cm namon has a trans double bond... [Pg.193]

The biological dehydrogenation of succinic acid described in Section 5 8 is 100% stereoselective Only fumaric acid which has a trans double bond is formed High levels of stereoselectivity are characteristic of enzyme catalyzed reactions... [Pg.206]

Dehydrohalogenation of cycloalkyl halides lead exclusively to cis cycloaUcenes when the ring has fewer than ten carbons As the ring becomes larger it can accommo date either a cis or a trans double bond and large nng cycloalkyl halides give mixtures of CIS and trans cycloalkenes... [Pg.213]

Cycloalkenes that have trans double bonds m rings smaller than 12 mem bers are less stable than their cis stereoisomers trans Cyclooctene can be isolated and stored at room temperature but trans cycloheptene is not stable above -30°C... [Pg.221]

All the double bonds in rubber have the Z (or cis) con figuration A different polymer of isoprene called gutta-percha has shorter polymer chains and E (or trans) double bonds Gutta percha is a tough horn like substance once used as a material for golf ball covers ... [Pg.408]

A few fatty acids with trans double bonds (trans fatty acids) occur naturally but the major source of trans fats comes from partial hydrogenation of vegetable oils m for example the preparation of margarine However the same catalysts that catalyze the... [Pg.1072]

Carotenoids have two general characteristics of importance to the food iadustry they are not pH sensitive ia the normal 2—7 range found ia foods, and they are not affected by vitamin C, making them especially important for beverages. They are more expensive than synthetic food dyes and have a limited color range. In their natural environment they are quite stable, but they become more labile when heated or when they are ia solution. Under those conditions, there is a tendency for the trans-double bonds to isomerize to the cis-stmcture with a subsequent loss of color iatensity. The results of controlled tolerance and toxicity tests, usiag pure carotenoids, iadicate that they are perfecdy safe as food colors (132). [Pg.404]

The principle of microscopic reversibility requires that the reverse process, ring closure of a butadiene to a cyclobutene, must also be a coiuotatory process. Usually, this is thermodynamically unfavorable, but a case in which the ring closure is energetically favorable is conversion of tra s,cis-2,4-cyclooctadiene (1) to bicyclo[4.2.0]oct-7-ene (2). The ring closure is favorable in this case because of the strain associated with the trans double bond. The ring closure occurs by a coiuotatory process. [Pg.607]

While it is relatively easy to introduce a cis double bond into a small ring, it is very difficult to introduce a trans double bond. In fact, the smallest trans cycloalkene which has actually been isolated to date is cyclooctene. [Pg.106]

An (E)-selective CM reaction with an acrylate (Scheme 61) was applied by Smith and O Doherty in the enantioselective synthesis of three natural products with cyclooxygenase inhibitory activity (cryptocarya triacetate (312), cryptocaryolone (313), and cryptocaryolone diacetate (314)) [142]. CM reaction of homoallylic alcohol 309 with ethyl acrylate mediated by catalyst C led (E)-selectively to d-hydroxy enoate 310 in near quantitative yield. Subsequent Evans acetal-forming reaction of 310, which required the trans double bond in 310 to prevent lactonization, led to key intermediate 311 that was converted to 312-314. [Pg.332]

Double bonds in small rings are so constrained that they must be cis. From cyclopropene (a known system) to cycloheptene, double bonds in a stable ring cannot be trans. However, the cyclooctene ring is large enough to permit trans double bonds to exist (see p. 134), and for rings larger than 10- or 11-membered,... [Pg.158]

As previously mentioned, double bonds in relatively small rings must be cis. A stable trans double bond first appears in an eight-membered ring trans-cyclooctene, p. 134), though the transient existence of tran -cyclohexene and cycloheptene has been demonstrated. Above 11 members, the trans isomer is more stable than the cis. It has proved possible to prepare compounds in which a trans double bond is shared by two cycloalkene rings (e.g., 104). Such compounds have been called [m.n]betweenanenes, and several have been prepared with m and n values from 8 to 26. The double bonds of the smaller betweenanenes, as might be... [Pg.186]

Diene alcohol (38) is the pheromone of the codling moth, tlie creature responsible for the grubs in apples, and of the various possible disconnections (a) is best as it gives most simplification and a stabilised ylid (39) which will produce the requi red trans double bond. Allylic bromide (40) and aldehyde-ester (41) are available,... [Pg.157]

Reduction of (24) by Lindlaar hydrogenation gives a cis double bond and sodium in liquid ammonia gives the trans double bond,... [Pg.172]

Do not confuse this with cis and trans double bonds. There are no double bonds here. Don t draw any double bonds. It is amazing how many students will draw a double bond when you ask them to draw c -l,2-dimethylcyclohexane. Remember that the ending -ane- means that there are no double bonds anywhere in the molecule. The only comparison between double bonds and disubstituted cylohexanes is that, in both cases, cis means on the same side and trans means on opposite sides. ... [Pg.131]

U shape. This has profound significance on molecular packing in membranes and on the positions occupied by fatty acids in more complex molecules such as phospholipids. Trans double bonds alter these spatial relationships. Trans fatty acids are present in certain foods, arising as a by-product of the samration of fatty acids during hydrogenation, or hardening, of natural oils in the manufacture of margarine. An additional small... [Pg.113]

Ketophosphonium salts are considerably more acidic than alkylphosphonium salts and can be converted to ylides by relatively weak bases. The resulting ylides, which are stabilized by the carbonyl group, are substantially less reactive than unfunctionalized ylides. More vigorous conditions are required to bring about reactions with ketones. Stabilized ylides such as (carboethoxymethylidene)triphenylphosphorane (Entries 8 and 9) react with aldehydes to give exclusively trans double bonds. [Pg.159]

In agreement with this mechanism is the fact that the stereochemistry of addition is syn.44 The rate of reaction with diimide is influenced by torsional and angle strain in the alkene. More strained double bonds react at accelerated rates.45 For example, the more strained trans double bond is selectively reduced in Z,K-1,5-cyclodecadiene. [Pg.388]

Lu Z, Yan Z, McLaughlin JL. Gigantransenins A, B, and C, novel mono-THF acetogenins bearing trans-double bonds, from Goniothalamus giganteus (Annonaceae). Tetrahedron Lett 1996 37 5449-5452. [Pg.227]


See other pages where Double bond trans is mentioned: [Pg.52]    [Pg.1074]    [Pg.159]    [Pg.213]    [Pg.165]    [Pg.517]    [Pg.241]    [Pg.367]    [Pg.105]    [Pg.560]    [Pg.268]    [Pg.1135]    [Pg.297]    [Pg.140]    [Pg.309]    [Pg.421]    [Pg.506]    [Pg.3]    [Pg.785]    [Pg.1433]    [Pg.562]    [Pg.160]    [Pg.226]    [Pg.303]    [Pg.390]   
See also in sourсe #XX -- [ Pg.370 ]




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Cis-Trans Isomerism of Double Bonds

Cis-Trans and Double Bond Isomerization

Cis-trans isomerization about double bonds

Double bond cis/trans

Double bond trans, irradiated

Double bonds cis- and trans

Double bonds, trans-polyacetylene

Olefins trans double bond

Sesquiterpenoids from Cis,Trans-Farnesyl Pyrophosphate with Initial Closure at the 6,7-Double Bond

Stereospecific trans-double bond formation

The Double Bond and Cis- Trans-Isomerism

Thioester Trans double bond

Trans bonds

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