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Publications - Cell and Metabolic Biology

Displaying results 1 to 10 of 10.

Publications

Schliemann, W.; Joy, R. W.; Komamine, A.; Metzger, J. W.; Nimtz, M.; Wray, V.; Strack, D.; Betacyanins from plants and cell cultures of Phytolacca americana Phytochemistry 42, 1039-1046, (1996) DOI: 10.1016/0031-9422(96)00100-8

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Publications

Lorenzen, M.; Racicot, V.; Strack, D.; Chapple, C.; Sinapic Acid Ester Metabolism in Wild Type and a Sinapoylglucose-Accumulating Mutant of Arabidopsis Plant Physiol. 112, 1625-1630, (1996) DOI: 10.1104/pp.112.4.1625

Sinapoylmalate is one of the major phenylpropanoid metabolites that is accumulated in the vegetative tissue of Arabidopsis thaliana. A thin-layer chromatography-based mutant screen identified two allelic mutant lines that accumulated sinapoylglucose in their leaves in place of sinapoylmalate. Both mutations were found to be recessive and segregated as single Mendelian genes. These mutants define a new locus called SNG1 for sinapoylglucose accumulator. Plants that are homozygous for the sng1 mutation accumulate normal levels of malate in their leaves but lack detectable levels of the final enzyme in sinapate ester biosynthesis, sinapoylglucose:malate sinapoyltransferase. A study of wild-type and sng1 seedlings found that sinapic acid ester biosynthesis in Arabidopsis is developmentally regulated and that the accumulation of sinapate esters is delayed in sng1 mutant seedlings.
Publications

Leopold, J.; Hause, B.; Lehmann, J.; Graner, A.; Parthier, B.; Wasternack, C.; Isolation, characterization and expression of a cDNA coding for a jasmonate-inducible protein of 37 kDa in barley leaves Plant Cell Environ. 19, 675-684, (1996) DOI: 10.1111/j.1365-3040.1996.tb00402.x

In barley leaves, there is a dramatic alteration of gene expression upon treatment with jasmonates leading to the accumulation of newly formed proteins, designated as jasmonate‐inducible proteins (JIPs). In the present study, a new jasmonate‐inducible cDNA, designated pHvJS37, has been isolated by differential screening of a γgt10 cDNA library constructed from mRNA of jasmonate‐treated barley leaf segments. The open reading frame (ORF) encodes a 39‐9 kDa polypeptide which cross‐reacts with antibodies raised against the in vivo JIP‐37. The hydropathic plot suggests that the protein is mainly hydrophilic, containing two hydrophilic domains near the C‐terminus. Database searches did not show any sequence homology of pHv.JS37 to known sequences. Southern analysis revealed at least two genes coding for JIP‐37 which map to the distal portion of the long arm of chromosome 3 and are closely related to genes coding for JIP‐23. The expression pattern of the JIP‐37 genes over time shows differential responses to jasmonate, abscisic acid (ABA), osmotic stress (such as sorbitol treatment) and desiccation stress. No expression was found under salt stress. From experiments using an inhibitor and intermediates of jasmonate synthesis such as α‐linolenic acid and 12‐oxophytodienoic acid, we hypothesize that there is a stress‐induced lipid‐based signalling pathway in which an endogenous rise of jasmonate switches on JIP‐37 gene expression. Using immunocytochemical techniques, JIP‐37 was found to be simultaneously located in the nucleus, the cytoplasm and the vacuoles.
Publications

Keller, H.; Hohlfeld, H.; Wray, V.; Hahlbrock, K.; Scheel, D.; Strack, D.; Changes in the accumulation of soluble and cell wall-bound phenolics in elicitor-treated cell suspension cultures and fungus-infected leaves of Solanum tuberosum Phytochemistry 42, 389-396, (1996) DOI: 10.1016/0031-9422(95)00866-7

Cell suspension cultures of potato (Solanum tuberosum cv. Datura) treated with an elicitor preparation from Phytophthora infestans and potato leaves infected with the same fungus were used to study changes in the accumulation patterns of soluble and cell wall-bound phenolics. The compounds were identified by chromatographic comparison with authentic substances and by spectroscopic methods (FAB mass spectrometry, 1H and 13C NMR). The soluble phenolics were 4-O-β-glucopyranosylhydroquinone (arbutin), 4-O-β-glucopyranosylbenzoate, 3-methoxy-4-O-β-glucopyranosylbenzoate (vanillate glucoside), N-(E)-caffeoylputrescine, 2-O-β-glucopyranosylbenzoate (salicylate glucoside), N-(E)-feruloylputrescine, and N-(E)-feruloylaspartate. The cell wall-bound phenolics were 4-hydroxybenzoate, 4-hydroxybenzaldehyde, 3-methoxy-4-hydroxybenzaldehyde (vanillin), 4-(E)-coumarate, (E)-ferulate, N-4-(E)-coumaroyltyramine, and N-(E)-feruloyltyramine. The most prominent phenolics showing elicitor- or fungus-induced increases in accumulation rates were the soluble putrescine amides and cell wall-bound 4-hydroxybenzaldehyde and tyramine amides. In addition, there was a secretion of large amounts of coumaroyltyramine into the cell culture medium.
Publications

Hohlfeld, H.; Scheel, D.; Strack, D.; Purification of hydroxycinnamoyl-CoA:tyramine hydroxycinnamoyltransferase from cell-suspension cultures of Solanum tuberosum L. cv. Datura Planta 199, 166-168, (1996) DOI: 10.1007/BF00196893

A pathogen-elicitor-inducible acyltransferase [tyramine hydroxycinnamoyltransferase (THT); EC 2.3.1], which catalyzes the transfer of hydroxycinnamic acids from hydroxycinnamoyl-CoA esters to tyramine in the formation of N-hydroxycinnamoyltyramine, was purified to apparent homogeneity from cell-suspension cultures of potato (Solanum tuberosum L. cv. Datura), with a 1400-fold enrichment, a 5% recovery and a final specific activity of 208 mkat·(kg protein)−1. Affinity chromatography on Reactive Yellow-3-Agarose using the acyl donor (feruloyl-CoA) as eluent was the decisive step in the purification sequence. The purified protein showed a native molecular mass of ca. 49 kDa. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis in the presence and in the absence of a reducing agent (2-mercaptoethanol) indicated that THT is a heterodimer in which the protein subunits (ca. 25 kDa) are non-covalently associated. The enzyme was stimulated fivefold by 10 mM Ca2+. The apparent K m value for tyramine was dependent on the nature of the hydroxycinnamoyl-CoA present. Thus, the K m value for tyramine was about tenfold greater (174 μM) in the presence of 4-coumaroyl-CoA than in the presence of feruloyl-CoA (20 μM).
Publications

Hohlfeld, M.; Veit, M.; Strack, D.; Hydroxycinnamoyltransferases Involved in the Accumulation of Caffeic Acid Esters in Gametophytes and Sporophytes of Equisetum arvense Plant Physiol. 111, 1153-1159, (1996) DOI: 10.1104/pp.111.4.1153

Four hydroxycinnamoyltransferases from Equisetum arvense L. were studied that catalyze the formation of mono-O-caffeoyl-meso-tartrate, di-O-caffeoyl-meso-tartrate, 5-O-caffeoylshikimate (dactylifrate), and 5-O-caffeoylquinate (chlorogenate). The enzymes were classified as coenzyme A (CoA)-ester-dependent acyltransferases (EC 2.3.1), i.e. hydroxycinnamoyl-CoA:meso-tartrate hydroxycinnamoyltransferase (CTT), hydroxycinnamoyl-CoA:caf-feoyl-meso-tartrate hydroxycinnamoyltransferase (CCT), hydroxycinnamoyl-CoA:shikimate hydroxycinnamoyltransferase (CST), and hydroxycinnamoyl-CoA:quinate hydroxycinnamoyltransferase. The CTT, CCT, and CST were partially purified and separated from E. arvense gametophytes by hydrophobic interaction chromatography on Fractogel TSK Butyl-650 followed by molecular exclusion on fast protein liquid chromatography-Superdex-75 with 87-, 62-, and 130- fold enrichments and 12, 8, and 11% yields, respectively. The enzyme activities obtained with caffeoyl-CoA were 95 (CTT), 74 (CCT), and 200 [mu]kat (CST) kg-1 protein. The apparent native relative molecular weight values were found to be approximately 45,000 (CTT), 52,000 (CCT), and 50,000 (CST). Each enzyme showed highest activities at pH 7.5, the CCT and CST in Tris-HCl (1.2 and 1.0 M) and the CTT in imidazole-HCl (1.25 M). Enzyme activities were stimulated more than 3-fold by 100 mM ascorbate. The apparent energies of activation (kilojoules mol-1) were calculated to be 56 (CTT), 69 (CST), and 76 (CCT). The enzymes accepted cinnamoyl-CoA and various hydroxycinnamoyl-CoAs. The time course of the transferase activities along with that of a fourth one, hydroxycinnamoyl-CoA:quinate hydroxycinnamoyltransferase, and the pattern of product accumulation were determined during a 1-year growth period of the E. arvense sporophytes.
Publications

Heuer, S.; Vogt, T.; Böhm, H.; Strack, D.; Partial purification and characterization of UDP-glucose: betanidin 5-O- and 6-O-glucosyltransferases from cell suspension cultures of Dorotheanthus bellidiformis (Burm. f.) N.E.Br. Planta 199, 244-250, (1996) DOI: 10.1007/BF00196565

Uridine 5′-diphosphoglucose-dependent glucosyl-transferases (UDP-glucose:betanidin 5-O- and 6-O-glucosyltransferases; 5-GT and 6-GT; EC 2.4.1) catalyze the regiospecific transfer of glucose to the 5- and 6-hydroxy group of betanidin in the formation of betanin and gomphrenin I, respectively. Both GT activities were partially purified from cell suspension cultures of Dorotheanthus bellidiformis (Burm. f.) N.E. Br. Isoelectric focusing of crude protein extracts indicated the presence of three 5-GT isoforms and a single 6-GT form. The 5-GT isoforms were partially separated from each other and completely from the 6-GT. Studies of the glucosyltransferase activities were focused on the major isoform of the 5-GTs and the 6-GT, which displayed the same pH optimum near 7.5 in K-phosphate buffer. A 3- and 2.5-fold enrichment and 11% and 10% recovery of the 5-GT and 6-GT, respectively, were routinely achieved; however, a 3300-fold enrichment of the major 5-GT isoform and a 6-fold enrichment of the 6-GT were also achieved. Both enzymes are monomers and displayed apparent native Mrs near 55 000. The maxima of the reaction temperature were at 50 °C for the 5-GT and at 37°C for the 6-GT with respective apparent energies of activation of 51 and 53 kJ · mol−1. Kinetic studies indicated that the apparent Michaelis constants (apparent K m) of the GTs for one substrate were dependent on the concentration of the second substrate. However, the relationship between the apparent K m values and the dissociation constants (K i) were different; m > K i applies for the 5-GT and K m < K i for the 6-GT activity. Consequently, this results in a predominant formation of betanin at low substrate concentrations, but a predominant formation of gomphrenin I at high substrate concentrations, assuming that both enzymes may compete freely for their substrates. This might explain why we could not observe a correlation between extractable 5-GT and 6-GT activities and the in-vivo accumulation of the respective products from cell-suspension cultures of D. bellidiformis.
Publications

Hause, B.; Demus, U.; Teichmann, C.; Parthier, B.; Wasternack, C.; Developmental and Tissue-Specific Expression of JIP-23, a Jasmonate-Inducible Protein of Barley Plant Cell Physiol. 37, 641-649, (1996) DOI: 10.1093/oxfordjournals.pcp.a028993

Developmental expression of a 23 kDa jasmonate-induced protein (JIP-23) of barley leaves (Hordeum vulgare cv. Salome) was studied by measuring the time-dependent accumulation of transcript and protein during germination. Tissue-specific expression of JIP-23 was analyzed immunocytochemically and by in situ hybridizations, respectively. During seed germination JIP-23 mRNA was found to accumulate transiently with a maximum at 32 h, whereas the protein was steadily detectable after the onset of expression. The occurrence of new isoforms of JIP-23 during germination in comparison to jasmonate-treated leaves suggests, that the JIP-23 gene family of barley is able to express different subsets of isoforms dependent on the developmental stage.JIP-23 and its transcript were found mainly in the scutellum, the scutellar nodule and in lower parts of the primary leaf of 6 days old seedlings. All these tissues exhibited high levels of endogenous jasmonates. In situ hybridization revealed specific accumulation of JIP-23 mRNA in companion cells of the phloem in the nodule plate of the scutellum. In accordance with that, JIP-23 was detected immunocytochemically in phloem cells of the root as well as of the scutellar nodule and in parenchymatic cells of the scutellum. The cell type-specific occurrence of JIP-23 was restricted to cells, which are known to be highly stressed osmotically by active solute transport. This observation suggests, that the expression of this protein might be a response to osmotic stress during development.
Publications

Feussner, I.; Hause, B.; Nellen, A.; Wasternack, C.; Kindl, H.; Lipid-body lipoxygenase is expressed in cotyledons during germination prior to other lipoxygenase forms Planta 198, 288-293, (1996) DOI: 10.1007/BF00206255

Lipid bodies are degraded during germination. Whereas some proteins, e.g. oleosins, are synthesized during the formation of lipid bodies of maturating seeds, a new set of proteins, including a specific form of lipoxygenase (LOX; EC 1.13.11.12), is detectable in lipid bodies during the stage of fat degradation in seed germination. In cotyledons of cucumber (Cucumis sativus L.) seedlings at day 4 of germination, the most conspicuous staining with anti-LOX antibodies was observed in the cytosol. At very early stages of germination, however, the LOX form present in large amounts and synthesized preferentially was the lipid-body LOX. This was demonstrated by immunocytochemical staining of cotyledons from 1-h and 24-h-old seedlings: the immunodecoration of sections of 24-h-old seedlings with anti-LOX antiserum showed label exclusively correlated with lipid bodies of around 3 μm in diameter. In accordance, the profile of LOX protein isolated from lipid bodies during various stages of germination showed a maximum at day 1. By measuring biosynthesis of the protein in vivo we demonstrated that the highest rates of synthesis of lipid-body LOX occurred at day 1 of germination. The early and selective appearance of a LOX form associated with lipid bodies at this stage of development is discussed.
Publications

Steiner, U.; Schliemann, W.; Strack, D.; Assay for Tyrosine Hydroxylation Activity of Tyrosinase from Betalain-Forming Plants and Cell Cultures Anal. Biochem. 238, 72-75, (1996) DOI: 10.1006/abio.1996.0253

In our studies on tyrosinase-catalyzed tyrosine hydroxylation, possibly involved in betalain biosynthesis, we have evaluated different assays for the detection and quantification of the enzymatic product Dopa with respect to sensitivity, simplicity, and suitability for automatization. A tyrosinase assay including reversed-phase high-performance liquid chromatography with isocratic elution and fluorescence detection has been developed (native fluorescence of Dopa; excitation at 281 nm, emission at 314 nm). This improved assay was sensitive (detection limit: 2 pmol Dopa) and showed a wide linear range of Dopa detection (10 pmol–20 nmol Dopa). The method proved to be suitable for high-performance liquid chromatography with an autosampler and has been applied for measuring tyrosinase activity of cell cultures and different tissues ofPortulaca grandiflora.
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