Dark Fixation of CO(2) by Crassulacean Plants: Evidence for a Single Carboxylation Step

Overview

Journal Plant Physiol

Specialty Physiology

Date 1972 Sep 1

PMID 16658174

Citations 23

Authors

B G Sutton

C B Osmond

Affiliations

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Abstract

Malic acid isolated from Bryophyllum pinnatum (Lamk.) Oken (B. calycinum Salisb.), Bryophyllum tubiflorum Harv., Kalanchoë diagremontiana Hamet et Perrier and Sedum guatamalense Hemsl. after dark (14)CO(2) fixation was degraded by an in vitro NADP-malic enzyme technique. In the short term (5 to 30 seconds) the malic acid was almost exclusively labeled in the C-4 carboxyl carbon (greater than 90%). The percentage of (14)C in the C-4 carboxyl of malic acid declined slowly with time, reaching 70% in B. tubiflorum and 54% in B. pinnatum after 14 hours of exposure to (14)CO(2). It was found that malic acid-adapted Lactobacillus arabinosus may seriously underestimate the C-4 carboxyl component of label in malic acid-(14)C. The amount of substrate which the bacteria can completely metabolize was easily exceeded; there was a significant level of randomization of label even when beta-decarboxylation proceeded to completion, and in extended incubation periods, more than 25% of label was removed from malic acid-U-(14)C. The significance of these findings in relation to pathways of carbohydrate metabolism and malic acid synthesis in Crassulacean acid metabolism is discussed.

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Isolation and biochemical characterization of grape malic enzyme.

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A comparative immunocytochemical localization study of phosphoenolpyruvate carboxylase in leaves of higher plants.

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References

Bradbeer J, Ranson S, Stiller M . Malate Synthesis in Crassulacean Leaves. I. The Distribution of C in Malate of Leaves Exposed to CO(2) in the Dark. Plant Physiol. 1958; 33(1):66-70. PMC: 541023. DOI: 10.1104/pp.33.1.66. View

Vickery H . The Effect of Abnormally Prolonged Alternating Periods of Light and Darkness upon the Composition of Bryophyllum calycinum Leaves. Plant Physiol. 1954; 29(6):520-6. PMC: 540578. DOI: 10.1104/pp.29.6.520. View

BLANCHARD M, KORKES S, DEL CAMPILLO A, Ochoa S . Function of biotin in the metabolism of Lactobacillus arabinosus. J Biol Chem. 1950; 187(2):875-90. View

Short S, White D, Aleem M . Phospholipid metabolism in Ferrobacillus ferrooxidans. J Bacteriol. 1969; 99(1):142-50. PMC: 249979. DOI: 10.1128/jb.99.1.142-150.1969. View

RACKER E . Spectrophotometric measurements of the enzymatic formation of fumaric and cis-aconitic acids. Biochim Biophys Acta. 1950; 4(1-3):211-4. DOI: 10.1016/0006-3002(50)90026-6. View