D. Steinmüller scite author profile

The surface structure and composition of surface lipids were examined in leaves of barley, bean, and cucumber seedlings grown in a growth chamber under white light and low levels of ultraviolet (UV-B; 280-320 nm) radiation. The cuticular wax of cucumber cotyledons and bean leaves appeared as a thin homogeneous layer, whereas on barley leaves crystal-like structures could be observed under these irradiation conditions. Principally, the amount of cuticular wax found in barley leaves was five times greater than in bean or cucumber leaves. The prediominant wax components were primary alcohols in barley, primary alcohols and monoesters in bean, and alkanes in cucumber cotyledons. Irradiation with enhanced UV-B levels caused an increase of total wax by about 25% in all plant species investigated. Aldehydes, detected as a minor constituent of cucumber and barley wax, increased twofold. Distribution patterns of the homologs within some wax classes were different at low and enhanced UV-B levels. In general, the distribution of the homologs was shifted to shorter acyl chain lengths in wax of leaves exposed to enhanced UV-B levels. This was most apparent in cucumber wax, less in bean or barley wax. The UV-B-caused effects upon cucumber wax were mainly due to a response by the adaxial surface of the leaf.

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The role of iron in the pathogenesis of porphyria cutanea tarda. II. Inhibition of uroporphyrinogen decarboxylase.

Kushner¹,

Steinmüller²,

Lee³

1975

J. Clin. Invest.

127

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A B S T R A C T Porphyria cutanea tarda is characterized biochemically by excessive hepatic synthesis and urinary excretion of uroporphyrin I and 7-carboxyl porphyrins. This pattern of excretion suggests an impaired ability to decarboxylate uroporphyrinogen to the 4-carboxyl porphyrinogen, coproporphyrinogen, a reaction catalyzed by the enzyme uroporphyrinogen de-carboxylase.Because clinical evidence has implicated iron in the pathogenesis of porphyria cutanea tarda, these experiments were designed to study the effect of iron on uroporphyrinogen decarboxylase in porcine crude liver extracts.Mitochondria-free crude liver extracts were preincubated with ferrous ion and aliquots were assayed for uroporphyrinogen decarboxylase activity. Uroporphyrinogens I and III, the substrates for the decarboxylase assay, were prepared enzymatically from [3H]porphobilinogen. The products of the decarboxylase reaction were identified and quantitated by three methods: (a) extraction into ethyl acetate at pH 4.0, back extraction into 1.5 N HCO and spectrophotometric quantitation; (b) adsorption onto talc, esterification, paper chromatographic identification, and quantitation by liquid scintillation counting; and (c) adsorption onto talc, esterification, thin-layer chromatographic identification on silica gel, and quantitation by liquid scintillation counting. The thin-layer scintillation method proved most sensitive as it was the only method which accurately identified and quantitated the 7-carboxyl porphyrin reaction product. Uroporphyrinogens I and III were decarboxylated at the same rate by porcine hepatic uroporphyrinogen decarboxylase, and the addition of iron induced marked inhibition of the decarboxylase activity. Orthophenanthroline blocked the inhibitory effect of iron.The inhibition of uroporphyrinogen decarboxylase by ferrous ion, coupled with its previously reported inhibitory effect on uroporphyrinogen III cosynthetase, provides a possible biochemical explanation for the pattern of urinary porphyrin excretion observed in patients with porphyria cutanea tarda and the clinical association with disordered iron metabolism.

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Influence of Light, UV-B Radiation, and Herbicides on Wax Biosynthesis of Cucumber Seedling

Tevini

Steinmüller

1987

Journal of Plant Physiology

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Composition and function of plastoglobuli

Tevini

Steinmüller

1985

Planta

182

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The lipid composition of whole leaves and isolated plastoglobul of beech (Fagus sylvatica) has been studied during four natural autumnal senescence stages. Chlorophylls, glycolipids, and phospholipids were extensively degraded in leaves. About 20% of the glycolipids found in leaves during summer, however, remained in the last stage of leaf senescence. Triacylglycerols, also detected in large amounts in summer leaves, were hydrolyzed during senescence. The content of free fatty acids derived from degradation of glycerolipids therefore increased. The total carotenoid and prenyl quinone content was largely unchanged during senescence, except during the last stage investigated, but the reduced forms of prenyl quinones decreased while the oxidized prenyl quinones increased. Plastoglobuli isolated from summer leaves mainly contained triacylglycerols, plastohydroquinone, and α-tocopherol. The triacylglycerol content declined in plastoglobuli during senescence. Most of the triacylglycerols must be located outside the plastoglobuli throughout the stages investigated. Carotenoids liberated from thylakoids were esterified and increasingly deposited in plastoglobuli during senescence. In the last senescence stage, carotenoid esters were the main component of plastoglobuli. Prenyl quinones were also transferred into plastoglobuli. Reduced prenyl quinones were sucessively oxidized during senescence and plastoquinone (oxidized) was the predominant prenyl quinone in plastoglobuli isolated from the last senescence stage. The carotenoid and prenyl quinone distribution was identical in leaves and plastoglobuli during late senescence. The main constituents of thylakoids, glycolipids and proteins, were not deposited in plastoglobuli and therefore did not play an important role in plastoglobuli metabolism.

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Composition and function of plastoglobuli

Steinmüller

Tevini

1985

Planta

125

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Plastoglobuli have been isolated and purified from chloroplasts of beech and spinach leaves and from broom flower chromoplasts by a repeated floating-gradient technique. The main components in plastoglobuli isolated from chloroplasts were triacylglycerols and lipophilic prenyl quinones, mainly plastohydroquinone and α-tocopherol. The corresponding oxidized prenyl quinones, plastoquinone (ox), α-tocoquinone, and the phylloquinone vitamin K1, were detected in trace amounts. Plastoglobuli isolated from chromoplasts contained large amounts of carotenoid esters. Triacylglycerols constituted two-thirds of the content of these plastoglobuli. The total prenyl quinone content was low in chromoplast plastoglobuli. Plastoquinone (ox) was the major prenyl quinone constituent. Plastoglobuli contained small amounts of chlorophylls, carotenoids (with the exception of chromoplast plastoglobuli), glycolipids, and proteins due to adsorption phenomena during the isolation process; however, increasing purification of the plastoglobuli fractions resulted in an exponential decline of these components. Adsorption of thylakoid lipids onto the plastoglobuli during the isolation process was demonstrated using an artificial globuli system. Therefore, pigments, glyco- and phospholipids, and proteins were regarded as thylakoid contaminations and not as actual constituents of plastoglobuli.

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D. Steinmüller

Action of ultraviolet radiation (UV-B) upon cuticular waxes in some crop plants

The role of iron in the pathogenesis of porphyria cutanea tarda. II. Inhibition of uroporphyrinogen decarboxylase.

Influence of Light, UV-B Radiation, and Herbicides on Wax Biosynthesis of Cucumber Seedling

Composition and function of plastoglobuli

Composition and function of plastoglobuli

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