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Publikationen - Stoffwechsel- und Zellbiologie

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Publikation

Winter, J.; Schneider, B.; Meyenburg, S.; Strack, D.; Adam, G.; Monitoring brassinosteroid biosynthetic enzymes by fluorescent tagging and HPLC analysis of their substrates and products Phytochemistry 51, 237-242, (1999) DOI: 10.1016/S0031-9422(98)00760-2

Both the vicinal side chain hydroxyl groups and the 6-oxo function of brassinosteroids were modified by fluorescence tagging. Dansylaminophenylboronic acid was used as a derivatizing agent to form fluorescent esters of brassinosteroids containing a side-chain cis-diol structure. 6-Oxo type brassinosteroids were derivatized by means of dansylhydrazine. The modified brassinosteroids, as far as possible derivatized both at the diol and the oxo group, were separated by HPLC and the optimal emission wavelength was determined. By this approach almost all brassinosteroids, including biosynthetic precursors, were susceptible to highly sensitive analysis in the fmol range. This method has been verified as an analytical tool to determine brassinosteroids in cell culture extracts and to monitor brassinosteroid biosynthetic enzymes. 24-Epibrassinolide has been detected in tomato cell suspension cultures. Several steps of brassinosteroid biosynthesis, including the Baeyer–Villiger oxidation of 24-epicastasterone to give 24-epibrassinolide, were monitored in vitro with protein preparations of the same cell culture line.
Publikation

Weiss, M.; Schmidt, J.; Neumann, D.; Wray, V.; Christ, R.; Strack, D.; Phenylpropanoids in mycorrhizas of the Pinaceae Planta 208, 491-502, (1999) DOI: 10.1007/s004250050586

Tissue-specific accumulation of phenylpropanoids was studied in mycorrhizas of the conifers, silver fir (Abies alba Mill.), Norway spruce [Picea abies (L.) Karst.], white pine (Pinus strobus L.), Scots pine (Pinus silvestris L.), and Douglas fir [Pseudotsuga menziesii (Mirbel) Franco], using high-performance liquid chromatography and histochemical methods. The compounds identified were soluble flavanols (catechin and epicatechin), proanthocyanidins (mainly dimeric catechins and/or epicatechins), stilbene glucosides (astringin and isorhapontin), one dihydroflavonol glucoside (taxifolin 3′-O-glucopyranoside), and a hydroxycinnamate derivative (unknown ferulate conjugate). In addition, a cell wall-bound hydroxycinnamate (ferulate) and a hydroxybenzaldehyde (vanillin) were analysed. Colonisation of the root by the fungal symbiont correlated with the distribution pattern of the above phenylpropanoids in mycorrhizas suggesting that these compounds play an essential role in restricting fungal growth. The levels of flavanols and cell wall-bound ferulate within the cortex were high in the apical part and decreased to the proximal side of the mycorrhizas. In both Douglas fir and silver fir, which allowed separation of inner and outer parts of the cortical tissues, a characteristic transversal distribution of these compounds was found: high levels in the inner non-colonised part of the cortex and low levels in the outer part where the Hartig net is formed. Restriction of fungal growth to the outer cortex may also be achieved by characteristic cell wall thickening of the inner cortex which exhibited flavanolic wall infusions in Douglas fir mycorrhizas. Long and short roots of conifers from natural stands showed similar distribution patterns of phenylpropanoids and cell wall thickening compared to the respective mycorrhizas. These results are discussed with respect to co-evolutionary adaptation of both symbiotic partners regarding root structure (anatomy) and root chemistry.
Publikation

Vogt, T.; Ibdah, M.; Schmidt, J.; Wray, V.; Nimtz, M.; Strack, D.; Light-induced betacyanin and flavonol accumulation in bladder cells of Mesembryanthemum crystallinum Phytochemistry 52, 583-592, (1999) DOI: 10.1016/S0031-9422(99)00151-X

Treatment of the halophyte Mesembryanthemum crystallinum L. (ice plant) (Aizoaceae) with high intensities of white light resulted in a rapid cell-specific accumulation of betacyanins and flavonoids with 6-methoxyisorhamnetin 3-O-{[(2‴-E-feruloyl)-3‴-O-(β-d-glucopyranosyl)](2″-O-β-d-xylopyranosyl)}-β-d-glucopyranoside (mesembryanthin) as the predominant component, within bladder cells of the leaf epidermis. Induced accumulation of these metabolites was first detected 18 h after the initiation of light treatment in bladder cells located at the tip of young leaves followed by the bladder cells located on the epidermis of fully expanded leaves. UV-A light apparently is sufficient to induce accumulation of betacyanins and flavonoids. Application of 2-aminoindan 2-phosphonic acid, a specific inhibitor of phenylalanine ammonia-lyase (PAL; EC 4.3.1.5), not only inhibited the accumulation of flavonoids but also reduced betacyanin formation. Based on these observations we suggest these bladder cells as a model system to study regulation of betacyanin and flavonoid biosyntheses.
Publikation

Vogt, T.; Grimm, R.; Strack, D.; Cloning and expression of a cDNA encoding betanidin 5-O-glucosyltransferase, a betanidin- and flavonoid-specific enzyme with high homology to inducible glucosyltransferases from the Solanaceae Plant J. 19, 509-519, (1999) DOI: 10.1046/j.1365-313X.1999.00540.x

Based on protein sequence data and RT–PCR, a full length cDNA encoding betanidin 5‐O‐glucosyltransferase (5‐GT) was obtained from a cDNA library of Dorotheanthus bellidiformis (Burm.f.) N.E.Br. (Aizoaceae). 5‐GT catalyses the transfer of glucose from UDP‐glucose to the 5‐hydroxyl group of the chromogenic betanidin. Betanidin and its conjugates, referred to as betacyanins, are characteristic fruit and flower pigments in most members of the Caryophyllales, which fail to synthesise anthocyanins. The 5‐GT cDNA displayed homology to previously published glucosyltransferase sequences and exhibited high identity to sequences of several inducible glucosyltransferases of tobacco and tomato (Solanaceae). The open reading frame encodes a polypeptide of 489 amino acids with a calculated molecular mass of 55.24 kDa. The corresponding cDNA was expressed in Escherichia coli . The recombinant protein displayed identical substrate specificity compared to the native enzyme purified from D. bellidiformis cell suspension cultures. In addition to the natural substrate betanidin, ortho‐dihydroxylated flavonols and flavones were glycosylated preferentially at the B‐ring 4′‐hydroxyl group. 5‐GT is the first enzyme of betalain biosynthesis in plants, of which the corresponding cDNA has been cloned and expressed. The results are discussed in relation to molecular evolution of plant glucosyl‐ transferases.
Publikation

Steiner, U.; Schliemann, W.; Böhm, H.; Strack, D.; Tyrosinase involved in betalain biosynthesis of higher plants Planta 208, 114-124, (1999) DOI: 10.1007/s004250050541

A tyrosine-hydroxylating enzyme was partially purified from betacyanin-producing callus cultures of Portulaca grandiflora Hook. by using hydroxyapatite chromatography and gel filtration. It was characterized as a tyrosinase (EC 1.14.18.1 and EC 1.10.3.1) by inhibition experiments with copper-chelating agents and detection of concomitant o-diphenol oxidase activity. The tyrosinase catalysed both the formation of L-(3,4-dihydroxyphenyl)-alanine (Dopa) and cyclo-Dopa which are the pivotal precursors in betalain biosynthesis. The hydroxylating activity with a pH optimum of 5.7 was specific for L-tyrosine and exhibited reaction velocities with L-tyrosine and D-tyrosine in a ratio of 1:0.2. Other monophenolic substrates tested were not accepted. The enzyme appeared to be a monomer with an apparent molecular mass of ca. 53 kDa as estimated by gel filtration and SDS-PAGE. Some other betalain-producing plants and cell cultures were screened for tyrosinase activity; however, activities could only be detected in red callus cultures and plants of P. grandiflora as well as in plants, hairy roots and cell cultures of Beta vulgaris L. subsp. vulgaris (Garden Beet Group), showing a clear correlation between enzyme activity and betacyanin content in young B. vulgaris plants. We propose that this tyrosinase is specifically involved in the betalain biosynthesis of higher plants.
Publikation

Schulz, B.; Römmert, A.-K.; Dammann, U.; Aust, H.-J.; Strack, D.; The endophyte-host interaction: a balanced antagonism? Mycol. Res. 103, 1275-1283, (1999) DOI: 10.1017/S0953756299008540

Since secondary metabolites are involved in fungal-host interactions, those of endophytes and their hosts were studied to try to understand why endophytic infections remain symptomless. A screening of fungal isolates for biologically active secondary metabolites (antibacterial, antifungal, herbicidal) showed that the proportion of endophytic isolates that produced herbicidally active substances was three times that of the soil isolates and twice that of the phytopathogenic fungi. As markers for the plant defence reaction, the concentrations of certain phenolic metabolites were chosen. Those that differed in concentration were higher in the roots of plants infected with an endophyte than in those infected with a pathogen. The results presented here were regarded together with previous studies on other aspects of the plant defence response using dual cultures of plant host calli and endophytes, and of cell suspension cultures following endophytic as compared to pathogenic elicitation. The following hypothesis was developed: both the pathogen-host and the endophyte-host interactions involve constant mutual antagonisms at least in part based on the secondary metabolites the partners produce. Whereas the pathogen-host interaction is imbalanced and results in disease, that of the endophyte and its host is a balanced antagonism.
Publikation

Schröder, G.; Unterbusch, E.; Kaltenbach, M.; Schmidt, J.; Strack, D.; De Luca, V.; Schröder, J.; Light-induced cytochrome P450-dependent enzyme in indole alkaloid biosynthesis: tabersonine 16-hydroxylase FEBS Lett. 458, 97-102, (1999) DOI: 10.1016/S0014-5793(99)01138-2

Vinblastine and vincristine are two medically important bisindole alkaloids from Catharanthus roseus (Madagascar periwinkle). Attempts at production in cell cultures failed because a part of the complex pathway was not active, i.e. from tabersonine to vindoline. It starts with tabersonine 16-hydroxylase (T16H), a cytochrome P450-dependent enzyme. We now show that T16H is induced in the suspension culture by light and we report the cloning of the cDNA. The enzyme was expressed in Escherichia coli as translational fusion with the P450 reductase from C. roseus, and the reaction product was identified by mass spectrometry. The protein (CYP71D12) shares 47–52% identity with other members of the CYP71D subfamily with unknown function. The induction by light was strongly enhanced by a nutritional downshift (transfer into 8% aqueous sucrose). We discuss the possibility that the entire pathway to bisindoles can be expressed in suspension cultures.
Publikation

Schmidt, A.; Grimm, R.; Schmidt, J.; Scheel, D.; Strack, D.; Rosahl, S.; Cloning and Expression of a Potato cDNA Encoding Hydroxycinnamoyl-CoA:Tyramine N-(Hydroxycinnamoyl)transferase J. Biol. Chem. 274, 4273-4280, (1999) DOI: 10.1074/jbc.274.7.4273

Hydroxycinnamoyl-CoA:tyramineN-(hydroxycinnamoyl)transferase (THT; EC 2.3.1.110) catalyzes the transfer of hydroxycinnamic acids from the respective CoA esters to tyramine and other amines in the formation ofN-(hydroxycinnamoyl)amines. Expression of THT is induced byPhytophthora infestans, the causative agent of late blight disease in potato. The amino acid sequences of nine endopeptidase LysC-liberated peptides from purified potato THT were determined. Using degenerate primers, a THT-specific fragment was obtained by reverse transcription-polymerase chain reaction, and THT cDNA clones were isolated from a library constructed from RNA of elicitor-treated potato cells. The open reading frame encoding a protein of 248 amino acids was expressed in Escherichia coli. Recombinant THT exhibited a broad substrate specificity, similar to that of native potato THT, accepting cinnamoyl-, 4-coumaroyl-, caffeoyl-, feruloyl- and sinapoyl-CoA as acyl donors and tyramine, octopamine, and noradrenalin as acceptors tested. Elicitor-induced THT transcript accumulation in cultured potato cells peaked 5 h after initiation of treatment, whereas enzyme activity was highest from 5 to 30 h after elicitation. In soil-grown potato plants, THT mRNA was most abundant in roots. Genomic Southern analyses indicate that, in potato, THT is encoded by a multigene family.
Publikation

Schliemann, W.; Kobayashi, N.; Strack, D.; The Decisive Step in Betaxanthin Biosynthesis Is a Spontaneous Reaction Plant Physiol. 119, 1217-1232, (1999) DOI: 10.1104/pp.119.4.1217

Experiments were performed to confirm that the aldimine bond formation is a spontaneous reaction, because attempts to find an enzyme catalyzing the last decisive step in betaxanthin biosynthesis, the aldimine formation, failed. Feeding different amino acids to betalain-forming hairy root cultures of yellow beet (Beta vulgaris L. subsp. vulgaris“Golden Beet”) showed that all amino acids (S- andR-forms) led to the corresponding betaxanthins. We observed neither an amino acid specificity nor a stereoselectivity in this process. In addition, increasing the endogenous phenylalanine (Phe) level by feeding the Phe ammonia-lyase inhibitor 2-aminoindan 2-phosphonic acid yielded the Phe-derived betaxanthin. Feeding amino acids or 2-aminoindan 2-phosphonic acid to hypocotyls of fodder beet (B. vulgaris L. subsp. vulgaris“Altamo”) plants led to the same results. Furthermore, feeding cyclo-3-(3,4-dihydroxyphenyl)-alanine (cyclo-Dopa) to these hypocotyls resulted in betanidin formation, indicating that the decisive step in betacyanin formation proceeds spontaneously. Finally, feeding betalamic acid to broad bean (Vicia faba L.) seedlings, which are known to accumulate high levels of Dopa but do not synthesize betaxanthins, resulted in the formation of dopaxanthin. These results indicate that the condensation of betalamic acid with amino acids (possibly includingcyclo-Dopa or amines) in planta is a spontaneous, not an enzyme-catalyzed reaction.
Publikation

Ortel, B.; Atzorn, R.; Hause, B.; Feussner, I.; Miersch, O.; Wasternack, C.; Jasmonate-induced gene expression of barley (Hordeum vulgare) leaves - the link between jasmonate and abscisic acid Plant Growth Regul. 29, 113-122, (1999) DOI: 10.1023/A:1006212017458

In barley leaves a group of genes is expressed in response to treatment with jasmonates and abscisic acid (ABA) [21]. One of these genes coding for a jasmonate-induced protein of 23 kDa (JIP-23) was analyzed to find out the link between ABA and jasmonates by recording its expression upon modulating independently, the endogenous level of both of them. By use of inhibitors of JA synthesis and ABA degradation, and the ABA-deficient mutant Az34, as well as of cultivar-specific differences, it was shown that endogenous jasmonate increases are necessary and sufficient for expression of this gene. The endogenous rise of ABA did not induce synthesis of JIP-23, whereas exogenous ABA did not act via jasmonates. Different signalling pathways are suggested and discussed.
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  • Digitalisierung in der Landwirtschaft
  • Martin-Luther Universität Halle
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