1985
DOI: 10.1039/p29850001233
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18O and secondary2H kinetic isotope effects confirm the existence of two pathways for acid-catalysed hydrolyses of α-arabinofuranosides

Abstract: The l80 kinetic isotope effect on the HCI0,-catalysed hydrolysis of 4-nitrophenyl [l -180]a-arabinofuranoside (kle/k,& is 1.023 f 0.003 at 80.0 "C; that for isopropyl [l -180] -a-arabinofuranoside is 0.988 at 30.2"C and the secondary deuterium effect on the hydrolysis of [2-*H]propan-2-yl a-arabinofuranoside (k,/k,) is 0.979. The nitrophenyl glycoside reacts with exocyclic C-0 cleavage and the propan-2-yl glycoside by endocyclic C-0 cleavage.

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Cited by 35 publications
(16 citation statements)
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“…Determination of 180 kinetic isotope effect. The 180 kinetic isotope effect for hydrolysis of p-nitrophenyl a-L-arabinofuranoside was measured at a substrate concentration of 8 mm (1OKm), with the labelled glycoside described by Bennet et al (1985), and the procedure used by Hosie & Sinnott (1985) for the equivalent measurement on a-glucosidase, except that the reaction was monitored at a wavelength of 345 nm, the isosbestic point of p-nitrophenol and its anion. Successive comparisons of 13-17 pairs of rates of hydrolysis of labelled and unlabelled substrates, with recrystallization of the substrates between each set of measurements, gave isotope effects of 1.0535+0.034, 1.0312 +0.014, 1.0395 +0.014 and 1.0299 +0.007.…”
Section: Methodsmentioning
confidence: 99%
See 1 more Smart Citation
“…Determination of 180 kinetic isotope effect. The 180 kinetic isotope effect for hydrolysis of p-nitrophenyl a-L-arabinofuranoside was measured at a substrate concentration of 8 mm (1OKm), with the labelled glycoside described by Bennet et al (1985), and the procedure used by Hosie & Sinnott (1985) for the equivalent measurement on a-glucosidase, except that the reaction was monitored at a wavelength of 345 nm, the isosbestic point of p-nitrophenol and its anion. Successive comparisons of 13-17 pairs of rates of hydrolysis of labelled and unlabelled substrates, with recrystallization of the substrates between each set of measurements, gave isotope effects of 1.0535+0.034, 1.0312 +0.014, 1.0395 +0.014 and 1.0299 +0.007.…”
Section: Methodsmentioning
confidence: 99%
“…We therefore now present data on the catalytic mechanism of an ac-L-arabinofuranosidase of Monilinia fructigena. Whereas ring-opening during non-enzymic hydrolyses of O-glycopyranosides lacks chemical precedent, ring-opening during acid catalysis of the hydrolysis of O-arabinofuranosides of electron-donating aglycones has been firmly established (Lonnberg & Kulonpiiii, 1977;Bennet et al, 1985). If ring-opening can be dismissed in a system chemically biassed towards it, then it can 'probably be dismissed in general as a mechanistic possibility for glycosidases.…”
Section: Introductionmentioning
confidence: 99%
“…An inverse effect is characteristic of an endocyclic cleavage, whereas a normal effect refers to the exocyclic cleavage. 14 The values obtained for isopropyl and 4-nitrophenyl glycosides of α-arabinofuranose (1a) are 0.987 and 1.023, respectively, 15 and hence fully consistent with endocyclic and exocyclic cleavage, respectively. β-deuterium effect of 0.979 is also consistent with the endocyclic cleavage of the isopropyl acetal of α-arabinofuranose.…”
Section: Isotope Effectsmentioning
confidence: 71%
“…This result clearly differentiates this class of inhibitor from pyranosides where positive charge development occurs mainly on the two adjacent positions to the anomeric carbon atom within the six-membered ring: the ring oxygen in the pyranosylium ion (C + -O 4 C]O + ) and carbon-2 (via hyperconjugation). 56,57 In addition, we note that the computed FES is relatively at in the vicinity of the quadratic region of the TS (Fig. 3A), a conclusion that suggests that the enzyme is able to stabilize positive charge development on C5 via a plethora of different TS structures.…”
Section: Measurement Of Kinetic Isotope Effects On Gh Covalent Labelingmentioning
confidence: 78%