- 1The distributions and rates of transfer of carbon isotopes from a selection of specifically labelled ketosugar-phosphate substrates by exchange reactions catalyzed by the pentose and photosynthetic carbon-reduction-pathway group-transferring enzymes transketolase, transaldolase and aldolase have been measured using 13C-NMR spectroscopy.
- 2The rates of these exchange reactions were 5, 4 and 1.5 μmol min−1 mg−1 for transketolase exchange, transaldolase exchange and aldolase exchange, respectively.
- 3A comparison of the exchange capacities contributed by the activities of these enzymes in three in vitro liver preparations with the maximum non-oxidative pentose pathway flux rates of the preparations shows that transketolase and aldolase exchanges exceeded flux by 9–19 times in liver cytosol and acetone powder enzyme preparations and by 5 times in hepatocytes. Transaldolase was less effective in the comparison of exchange versus flux rates: transaldolase exchange exceeded flux by 1.6 and 5 in catalysis by liver cytosol and acetone powder preparations, respectively, but was only 0.6 times the flux in hepatocytes.
- 4Values of group enzyme exchange and pathway flux rates in the above three preparations are important because of the feature role of liver and of these particular preparations in the establishment, elucidation and measurement of a proposed reaction scheme for the fat-cell-type pentose pathway in biochemistry.
- 5It is the claim of this paper that the excess of exchange rate activity (particularly transketolase exchange) over pathway flux will overturn attempts to unravel, using isotopically labelled sugar substrates, the identity, reaction sequence and quantitative contribution of the pentose pathway to glucose metabolism.
- 6The transketolase exchange reactions relative to the pentose pathway flux rates in normal, regenerating and foetal liver, Morris hepatomas, mammary carcinoma, melanoma, colonic epithelium, spinach chloroplasts and epididymal fat tissue show that transketolase exchange may exceed flux in these tissues by factors ranging over 5–600 times.
- 7The confusion of pentose pathway theory by the effects of transketolase exchange action is illustrated by the 13C-NMR spectrum of the hexose 6-phosphate products of ribose 5-phosphate dissimilation, formed after 30 min of liver enzyme action, and shows 13C-labelling in carbons 1 and 3 of glucose 6-phosphate with ratios which range over 2.1–6.4 rather than the mandatory value of 2 which is imposed by the theoretical mechanism of the pathway.
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- RluP 3-epimerase
xylulose 5-phosphate. All sugars have the d-configuration
Transaldolase (EC 18.104.22.168)
transketolase (EC 22.214.171.124)
fructose-bisphosphate aldolase (EC 126.96.36.199)
pentosephosphate isomerase (EC 188.8.131.52)
ribulose-phosphate 3-epimerase (EC 184.108.40.206)
hexokinase (EC 220.127.116.11)
glucose-6-phosphate isomerase (EC 18.104.22.168)
triose-phosphate isomerase (EC 22.214.171.124)
glycerol-3-phosphate dehydrogenase (EC 126.96.36.199)