Epimers axial

In a kinetic study of the oxidation of allylic steroid alcohols, Burstein and Ringold " observed that 3/3-hydroxy-A -steroids (equatorial) are oxidized about 6 times faster than the 3a-epimers (axial) and that the 3 -hydrogen compound (4) is oxidized 5... 

In reductions with NaBH4 the proportions of epimers are generally of the same order as with Li AIH4, but usually more of the axial alcohol is produced. This is especially true of reductions done in methanol. " A summary of the... 

In the absence of steric factors e.g. 5 ), the attack is antiparallel (A) (to the adjacent axial bond) and gives the axially substituted chair form (12). In the presence of steric hindrance to attack in the preferred fashion, approach is parallel (P), from the opposite side, and the true kinetic product is the axially substituted boat form (13). This normally undergoes an immediate conformational flip to the equatorial chair form (14) which is isolated as the kinetic product. The effect of such factors is exemplified in the behavior of 3-ketones. Thus, kinetically controlled bromination of 5a-cholestan-3-one (enol acetate) yields the 2a-epimer, (15), which is also the stable form. The presence of a 5a-substituent counteracts the steric effect of the 10-methyl group and results in the formation of the unstable 2l5-(axial)halo ketone... 

Those epimers of 1,2,3,4-tetrahydro-j8-carbolines of general structure 139, in which the hydrogen on carbon-1 of the carboline moiety is axial, are converted into the corresponding 3,4-dihydro- -carbolinium salts (141) by mercuric acetate oxidation. Sodium dichromate... 

The facile and selective oxidation of both primary and secondary hydroxy groups with certain nucleotides led Pfitzner and Moffatt (48) to explore the scope of the carbodiimide-methyl sulfoxide reagent with steroid and alkaloid alcohols. Relatively minor differences were apparent in the rate of oxidation of epimeric pairs of 3- and 17- hydroxy steroids whereas the equatorial lLx-hydroxyl group in several steroids was readily oxidized under conditions where the axial epimer was unreactive [cf. chromic oxide oxidation (51)]. 

The rate-determining step in the formation of the x-lithio ethers is the formation of a carbon radical as a precursor to the anion. The intermediate radical in the tetrahydropyranyl system is expected to be nonplanar, to be capable of rapid equilibration between the quasiequatorial and quasiaxial epimers, and to exist largely or entirely in the axial configuration at — 78 °C. However, treatment of the a-phenylthio ether 4 with LDMAN at higher temperature in the presence of A, A, lV, ./V -tetramethylethylenediamine leads to the more stable equatorial epimer of the lithio ether 5 and, after addition to benzaldehyde, the axial- and equatorial-substituted products were obtained in a ratio of 13 87. 

A further test of the stereoelectronic theory of reactivity of phosphate esters has been attempted using measurements of the rates of displacement of 4-nitrophenate from the esters (23) and (24), their phosphorus epimers, and also (25), in aqueous methanol the introduction of the 4a-Me group into the system would, it was hoped, reduce the the flexibility of the bicyclic structures and so possibly eliminate the participation of twist-boat conformations. The presence of the 4a-Me group has no effect of the rate of displacement of the axial ArO group... 

It is worth noting that we have previously observed a sharp increase in the amount of the axial epimer when reducing 5a-androstan-3,17-dione with 2-... 

In the particular case studied in this paper, it is not worth carrying out the reaction under hydrogen transfer conditions to increase the amount of axial epimer, as up to 65% of the thermodynamically unfavoured alcohol can be obtained over Cu/Si02 at 60°C and 1 atm of H2 (5). However, this work shows that the use of secondary alcohols as donors is possible under very mild conditions over the same catalyst. This can be useful both for safety reasons and for operating under mild experimental conditions in order to convert sensitive molecules (such as the ones used in the synthesis of speciality chemicals that can not withstand gas phase conditions). 

The relative stereochemistry of hyperaspine 93 was determined by 2-D NMR spectroscopic and mass spectrometry (MS) methods. It has a m-fused bicyclic conformation 93a <2001TL4621>. The trans-fused one is disfavored by an axial pentyl group at C-8 and by a destabilizing dipole-dipole interaction between the N- and O-atoms, which does not exist in the alternative //.(-conformation. The geminal coupling constant of C( 1 )H2 in 93 (11.0 Hz), and that of its 6-hydroxy derivative (11.2 Hz), indicates that they exist preferentially in / //-conformations, whereas their 6-epimers adopt trans-conformations (9.3 and 8.4 Hz, respectively) <2005EJ01378>. Nuclear Overhauser enhancement spectroscopy (NOESY) studies also confirmed the stereochemistry of 93 by the marked nuclear Overhauser effect (NOE) correlation between H-3 and H-4a <20030L5063>. 

Catalytic reduction of bridgehead enol lactone over Pd/C indicates that, indeed, the syn addition from the exo face of the bridgehead double bound establishes the relative configuration of all substituents [264], Equilibration studies performed in EtONa/EtOH also established that the ratio of the epimers corresponds to an equilibrium mixture. Under mild basic conditions (NajCOj/ EtOH), the product isomerization occurs to a very small extent. The product distribution is best understood by rapid conformational relaxation to one of the two low-eneigy half-chair conformations. The stereochemistry is established at the subsequent protonation step. This takes place with a strong preference for axial protonation from the /I face at carbon 2 to produce the most stable chair conformation (Scheme 14.12). 

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