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Reactive bond of the

To form catalytically productive enzyme/substrate complexes, many peptide bond cis-trans isomerases essentially require the location of the reactive bond of the substrate in the context of secondary binding sites or a specific spatial organization of the polypeptide chain thus creating features of stereo- and regiospecifi-city [19,20]. As in the case of many endoproteases, PPIases can utilize an extended array of catalytic subsites to enhance catalytic efficiency and substrate specificity. These properties precondition peptide bond cis-trans isomerases toward a complex reaction pattern. Consequently, biochemical investigations have led to the elucidation of three distinct molecular mechanisms that might be operative either in isolation or collectively in the cellular action of both prototypical and multidomain peptide bond cis-trans isomerases ... [Pg.198]

The allenyl moiety (2,3-aikadienyl system) in the carbonylation products is a reactive system and further reactions such as intramolecular Diels-Alder and ene reactions are possible by introducing another double bond at suitable positions of the starting 2-alkynyl carbonates. For example, the propargylic carbonate 33 which has l,8(or 1.9)-diene-3-yne system undergoes tandem carbonylation and intramolecular Diels-Alder reaction to afford the polycyclic compound 34 under mild conditions (60 C, 1 atm). The use of dppp as ligand is important. One of the double bonds of the allenyl ester behaves as part of the dieneflSj. [Pg.458]

FIGURE 8 10 Hydrogen bonding of the solvent to the nucleophile stabilizes the nucleophile and makes It less reactive... [Pg.347]

The simplest of all Diels-Alder reactions cycloaddition of ethylene to 1 3 butadi ene does not proceed readily It has a high activation energy and a low reaction rate Substituents such as C=0 or C=N however when directly attached to the double bond of the dienophile increase its reactivity and compounds of this type give high yields of Diels-Alder adducts at modest temperatures... [Pg.409]

The mechanisms of the Fischer esterification and the reactions of alcohols with acyl chlorides and acid anhydrides will be discussed m detail m Chapters 19 and 20 after some fundamental principles of carbonyl group reactivity have been developed For the present it is sufficient to point out that most of the reactions that convert alcohols to esters leave the C—O bond of the alcohol intact... [Pg.640]

Ethylene oxide is a very reactive substance It reacts rapidly and exothermically with anionic nucleophiles to yield 2 substituted derivatives of ethanol by cleaving the car bon-oxygen bond of the nng... [Pg.679]

Isocyanates are Hquids or soHds which are highly reactive and undergo addition reactions across the C=N double bond of the NCO group. Reactions with alcohols, carboxyUc acids, and amines have been widely exploited ia developiag a variety of commercial products. Cycloaddition reactions involving both the C=N and the C=0 double bond of the NCO group have been extensively studied and used for product development (1 9). [Pg.446]

Oligomerization and Polymerization Reactions. One special feature of isocyanates is their propensity to dimerize and trimerize. Aromatic isocyanates, especially, are known to undergo these reactions in the absence of a catalyst. The dimerization product bears a strong dependency on both the reactivity and stmcture of the starting isocyanate. For example, aryl isocyanates dimerize, in the presence of phosphoms-based catalysts, by a crosswise addition to the C=N bond of the NCO group to yield a symmetrical dimer (15). [Pg.450]

This is explained by the low reactivity of the double bond of the allyl compound together with prevalence of chain termination through reaction of allyhc H atoms as shown (2). [Pg.80]

The behavior of oligosiloxanediols in the presence of strong bases is different. The contribution to the overall process of the disproportionation reaction, involving a migration of the ultimate siloxane unit between siloxane molecules, is much greater and may even completely dominate the polycondensation reaction (80). The reactivity enhancement of the siloxane bond adjacent to the sHanolate anion can be understood in terms of n(0) (7 (SiO) conjugation. [Pg.46]

The Q and e values of VP are 0.088 and —1.62, respectively (125). This indicates resonance interaction of the double bond of the vinyl group with the electrons of the lactam nitrogen, whence the electronegative nature. With high e+ monomers such as maleic anhydride, VP forms alternating copolymers, much as expected (126). With other monomers between these Q and e extremes a wide variety of possibiHties exist. Table 14 Hsts reactivity ratios for important comonomers. [Pg.532]

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The Quantum Chemistry of Transition Metal Surface Bonding and Reactivity

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