Far uphill. However, an interesting exception involving stepwise ET-PT is also discussed in Section 6, below. As noted above for hydroxylamines and phenols, one of the hallmarks of a reagent that prefers to transfer an electron and proton together is that the pKa of the changes dramatically upon redox change (and, equivalently, the E?changes dramatically upon deprotonation). For toluene, the pKas of PhCH3 and PhCH3? differ by more than 50 orders of magnitude! 5.8.2 Nicotinamide derivatives–One of the archetypal biological redox reactions of C?H bonds is the H+/2e- couple in reactions of nicotinamide adenine nucleotide (NAD+/H) and nicotinamide adenine dinucleotide phosphate (NADP+/H, Figure 8). As noted above, NADH and NADPH commonly transfer Z-DEVD-FMK site hydride to flavins in many different enzyme catalytic cycles. Kreevoy and coworkers have beautifully explored the hydride transfer chemistry of NADH analogs, and shown that the kinetics of these reactions are related to the thermochemistry of hydride transfer.57 More recently, other cellular roles of nicotinamides have been uncovered.349 In vitro, nicotinamide derivatives and analogs can undergo electron transfer, hydrogen atom transfer, and hydride transfer reactions (similar to flavins), as has been shown in a number of studies.350 The reactivity of NADH and related compounds, such as N-benzyl-1,4-dihydronicotinamide (BNAH) and 10-methyl-9,10-dihydroacridine (AcrH2), has been widely studied, and there are a few reports of the redox potential and pKa data necessary to draw complete thermochemical scheme. Nicotinamides are oxidized by two electrons with loss of one proton, to give the corresponding pyridinium ion, so a double square scheme is needed to describe each system (Figure 9). Nicotinamide radical cations are quite acidic, like the hydrocarbon radical cations discussed above, and the closed shell (reduced) nicotinamides are very poor acids, highlighting the typical preference of these compounds to undergo PCET rather than ET or PT. Cheng et al. have presented thermochemical data for aqueous NADH351 and for 10-methyl-9,10-dihydroacridine (AcrH2) in DMSO352 and MeCN (Figure 9),353 although questions have been raised about some of these results.354 For AcrH2 in MeCN, there is reasonable agreement between Cheng’s values and those reportedNIH-PA Author Manuscript NIH-PA Author Manuscript NIH-PA Author ManuscriptChem Rev. Author manuscript; available in PMC 2011 December 8.Warren et al.Pageearlier by Sav nt and Neta, but there is a substantial disagreement in the values for BNAH. 355 There is also a discrepancy between Cheng et al.’s data351 and other literature values356,357 for NADH in water. The E?and pKa data can be converted to BDFEs and hydride affinities (G?H-)), as discussed above. The derived hydride affinities for AcrH2 and benzyl nicotinamide BNAH (Figure 8) in MeCN are in reasonable agreement with those obtained from equilibrium measurements,358 and the difference between them similarly agrees with the relative hydride affinities reported by Thonzonium (bromide)MedChemExpress Thonzonium (bromide) Wayner.359 Methylated BNAH derivatives show thermochemistry that is similar to the parent compound in MeCN.360 5.8.3 Hydrogen–The H bond in dihydrogen is in many ways very similar to the C bond in methane. The gas phase BDE361 and BDFE49 of H2 are known (Table 19). These gas phase values are within 1 kcal mol-1 of methane. These BDEs and BDFEs, along with the known enthalpies and entropies of solution, are used to calculate BDEs and BDFEs in.Far uphill. However, an interesting exception involving stepwise ET-PT is also discussed in Section 6, below. As noted above for hydroxylamines and phenols, one of the hallmarks of a reagent that prefers to transfer an electron and proton together is that the pKa of the changes dramatically upon redox change (and, equivalently, the E?changes dramatically upon deprotonation). For toluene, the pKas of PhCH3 and PhCH3? differ by more than 50 orders of magnitude! 5.8.2 Nicotinamide derivatives–One of the archetypal biological redox reactions of C?H bonds is the H+/2e- couple in reactions of nicotinamide adenine nucleotide (NAD+/H) and nicotinamide adenine dinucleotide phosphate (NADP+/H, Figure 8). As noted above, NADH and NADPH commonly transfer hydride to flavins in many different enzyme catalytic cycles. Kreevoy and coworkers have beautifully explored the hydride transfer chemistry of NADH analogs, and shown that the kinetics of these reactions are related to the thermochemistry of hydride transfer.57 More recently, other cellular roles of nicotinamides have been uncovered.349 In vitro, nicotinamide derivatives and analogs can undergo electron transfer, hydrogen atom transfer, and hydride transfer reactions (similar to flavins), as has been shown in a number of studies.350 The reactivity of NADH and related compounds, such as N-benzyl-1,4-dihydronicotinamide (BNAH) and 10-methyl-9,10-dihydroacridine (AcrH2), has been widely studied, and there are a few reports of the redox potential and pKa data necessary to draw complete thermochemical scheme. Nicotinamides are oxidized by two electrons with loss of one proton, to give the corresponding pyridinium ion, so a double square scheme is needed to describe each system (Figure 9). Nicotinamide radical cations are quite acidic, like the hydrocarbon radical cations discussed above, and the closed shell (reduced) nicotinamides are very poor acids, highlighting the typical preference of these compounds to undergo PCET rather than ET or PT. Cheng et al. have presented thermochemical data for aqueous NADH351 and for 10-methyl-9,10-dihydroacridine (AcrH2) in DMSO352 and MeCN (Figure 9),353 although questions have been raised about some of these results.354 For AcrH2 in MeCN, there is reasonable agreement between Cheng’s values and those reportedNIH-PA Author Manuscript NIH-PA Author Manuscript NIH-PA Author ManuscriptChem Rev. Author manuscript; available in PMC 2011 December 8.Warren et al.Pageearlier by Sav nt and Neta, but there is a substantial disagreement in the values for BNAH. 355 There is also a discrepancy between Cheng et al.’s data351 and other literature values356,357 for NADH in water. The E?and pKa data can be converted to BDFEs and hydride affinities (G?H-)), as discussed above. The derived hydride affinities for AcrH2 and benzyl nicotinamide BNAH (Figure 8) in MeCN are in reasonable agreement with those obtained from equilibrium measurements,358 and the difference between them similarly agrees with the relative hydride affinities reported by Wayner.359 Methylated BNAH derivatives show thermochemistry that is similar to the parent compound in MeCN.360 5.8.3 Hydrogen–The H bond in dihydrogen is in many ways very similar to the C bond in methane. The gas phase BDE361 and BDFE49 of H2 are known (Table 19). These gas phase values are within 1 kcal mol-1 of methane. These BDEs and BDFEs, along with the known enthalpies and entropies of solution, are used to calculate BDEs and BDFEs in.