Friedhelm Lütke-Brinkhaus scite author profile

Friedhelm Lütke-Brinkhaus

5Publications

68Citation Statements Received

9Citation Statements Given

How they've been cited

149

How they cite others

Affiliations

University of Freiburg

Publications

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On the biosynthesis of ubiquinones in plant mitochondria

1984

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Isolated mitochondria from potato tubers, spinach leaves, and daffodil petals form intermediates of the ubiqujnone biosynthetic pathway (prenylated 4-hydroxybenzoate, prenylated phenols, and quinoid compounds) from [l -lSC]isopentenyl diphosphate and endogcnous or exogenous 4-hydroxybenzoate. In contrast [2-'4C]mevalonate 5-diphosphate, the immediate precursor of isopentenyl diphosphate was not accepted as a substrate. These results suggest that plant mitochondria have their own prenyltransferase and prenylation system, similar to the plastid compartment which also starts by the use of isopentenyl diphosphate [see Kreuz, K. and Kleinig, H. (1984) Eur. J. BiocArm. 141,

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[45] Ubiquinone biosynthesis in plant mitochondria

Lütke-Brinkhaus¹,

Kleinig²

1987

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Phytoene synthase and phytoene dehydrogenase associated with envelope membranes from spinach chloroplasts

Lütke-Brinkhaus

Liedvogel

Kreuz

et al. 1982

Planta

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Envelope membranes of spinach chloroplasts contain appreciable activities of the carotenogenic enzymes phytoene synthase (formation of phytoene by condensation of two molecules geranylgeranyl pyrophosphate) and phytoene dehydrogenase (formation of lycopene from phytoene), plus a phosphatase activity. These results were obtained by coincubation experiments using isolated envelope membranes and either a phytoene-forming in vitro system (from [1-(14)C]isopentenyl pyrophosphate) or [(14)C]geranylgeranyl pyrophosphate or a geranylgeranyl-pyrophosphate-forming in vitro system (from [1-(14)C]isopentenyl pyrophosphate). Within thylakoids carotenogenic enzymes could not be detected. It is concluded that the chloroplast envelope is at least a principal site of the membrane-bound steps of carotenoid biosynthesis in chloroplasts.

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Carotenoid and chlorophyll biosynthesis in isolated plastids from mustard seedling cotyledons (Sinapis alba L.) during etioplast-chloroplast conversion

Lütke-Brinkhaus

Kleinig

1987

Planta

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Etioplasts and etiochloroplasts, isolated from seedlings of white mustard (Sinapis alba L.) grown in continuous far-red light, and chloroplasts isolated from cotyledons and primary leaves of white-light-grown seedlings exhibit high prenyl-lipid-forming activities. Only the etioplasts and etiochloroplasts, and to a much lesser extent chloroplasts from cotyledons are capable of forming carotenes from isopentenyl diphosphate as substrate, whereas in chloroplasts from primary leaves no such activities could be detected. By subfractionation experiments, it could be demonstrated that the phytoene-synthase complex in etioplasts and etiochloroplasts is present in a soluble form in the stroma, whereas the subsequent enzymes, i.e. the dehydrogenase, cis-trans isomerase and cyclase are bound to both membrane fractions, the prolamellar bodies/prothylakoids and the envelopes. In good agreement with previous results using isolated chromoplasts and chloroplasts, it is concluded that the phytoene-synthase complex may change its topology from a peripheral membrane protein in non-green plastids to a tightly membrane-associated protein in chloroplasts. This change is apparently paralleled by altered functional properties which render the complex undetectable in isolated chloroplasts. Further experiments concerning the reduction of chlorophyll a containing a geranylgeranyl side chain to chlorophyll a indicate that the light-induced etioplast-chloroplast conversion is accompanied by a certain reorganization of the polyprenoid-forming enzymatic equipment.

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Prenyl lipid formation in spinach chloroplasts and in a cell-free system of Synechococcus (Cyanobacteria): polyprenols, chlorophylls, and fatty acid prenyl esters

Lütke-Brinkhaus

Weiß

Kleinig

1985

Planta

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Isolated chloroplasts from spinach leaf cells, chloroplast subfractions, and a cell-free system of the cyanobacterium Synechococcus CCAP 6312 incorporated [1-(14)C]isopentenyl pyrophosphate in high yields into prenyl lipids. Products were polyprenols (C20, C45) chlorophylls, quinoid compounds, and fatty acid prenyl esters; prenyl pyrophosphates occurred in trace amounts, and carotenes were only formed to a limited extent in the Synechococcus system. The formation of fatty acid prenyl esters, which is described here for the first time, was found to occur in two different ways in the chloroplast system; by an acyl-CoA: polyprenol acyltransferase reaction associated with the envelope membranes and by a transesterification reaction from chlorophyll associated with the thylakoids. Endogenous fatty acid prenyl esters made up about 3% by weight of total lipids in spinach chloroplasts and were also found to be natural constituents of the cyanobacterial cells.

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