Refine
Has Fulltext
- yes (2)
Is part of the Bibliography
- yes (2)
Document Type
- Doctoral Thesis (2)
Language
- English (2) (remove)
Keywords
- Extrazellulärraum (2) (remove)
Because of growth and development, plant tissues are characterised by a permanent change in source-sink relations. Tissues with a net carbohydrate export (source) or import (sink) have to adopt their actual demand for assimilates according to the developmental status. Furthermore, plants, as sessile life forms, have developed regulatory mechanisms that enable a flexible response of assimilate partitioning to specific requirements of the habitat, like biotic and abiotic stress factors and changing light conditions. The distribution of assimilates involves specific enzyme functions including sugar transporters and sucrose cleaving enzymes and is regulated by a variety of stimuli. Extracellular invertases cover an essential function in apoplastic phloem unloading and play an important role in regulating source-sink relations. This property is reflected by the occurrence of different invertase isoenzymes with specific expression and regulation patterns that enable a co-ordination of the carbohydrate metabolism in diverse tissues, at different developmental stages, and under varying environmental conditions. Improved knowledge of extracellular invertase function might allow altering growth, development or pathogen resistance of crop plants in a specific way. The present study is aimed at elucidating the regulation patterns and functions of three members of the extracellular invertase gene family of tomato, Lin5, Lin6, and Lin7. Detailed promoter analysis revealed a tissue- and developmental-specific expression of isoenzymes and corresponding regulation patterns. Lin5 shows a developmental regulated expression in fruits. Lin6 is expressed in early developmental stages starting in germinating seeds; in grown up plants Lin6 is solely expressed in pollen and upon wound-stimulation. Lin7 is exclusively expressed in tapetum and pollen tissue. The hormonal regulation of all three isogenes was analysed in detail, whereby known GA- and JA-mediated flower phenotypes could be correlated with invertase functions. In addition, an important role of Lin7 invertase in pollen germination was demonstrated in a functional approach. This is the most profound analysis of extracellular invertases in the delicate process of floral organ development that includes three tomato isoenzymes. In particular, dissection of the individual roles of Lin5, Lin6, and Lin7 reveals novel insights in carbohydrate supply during flower and fruit development. The analysed tissue-specific promoters are profitable tools in plant biotechnology, which in particular applies to the pollen-specific Lin7 promoter. It has been demonstrated that the Lin6 promoter serves as target for hormonal-, sugar-, and wound-mediated signalling pathways. Moreover, a functional interaction of circadian oscillator elements of A. thaliana with the Lin6 promoter and a diurnal rhythm of Lin6 expression have been substantiated. This complex regulation pattern is reflected by the identification of many well-defined cis-acting elements within the Lin6 promoter. This feature supports an integration of various stimuli mediated via extracellular invertase expression resulting in a co-ordinated cellular response to changing internal and external conditions. As sugars on their part induce Lin6 expression, this could result in signal amplification via a positive feedback loop. Furthermore, the extensive appearance and constellation of cisacting elements within the Lin6 promoter provides the basis to answer questions in signal cross-talk and signal integration in plant gene expression. In addition, the Lin6 promoter was successfully used as an inducible expression system. In transgenic tobacco lines an invertase inhibitor was expressed under control of the cytokinin-inducible Lin6 promoter. Thereby, a causal relationship between cytokinin and extracellular invertase for the delay of senescence was demonstrated. This study emphasises the importance of inducible expression systems to address specific questions on a molecular basis. The above-mentioned promoter sequences were obtained via sequential genome walks. Hereby two interesting structural features appeared. First, Lin5 and Lin7 genes are arranged in a direct tandem repeat on the genome. Second, a CACTA-like transposon insertion in intron I of the Lin5 gene was revealed. A primer pair deduced from the transposase region of this transposon allowed the amplification of similar sequences of various Solanaceae species.
In the last years it became evident that many cytokines do not only bind to their specific cell surface receptors but also interact with components of the extracellular matrix. Mainly in Drosophila, several enzymes were identified, that are involved in glycosaminoglycan synthesis. Mutations in these enzymes mostly result in disturbances of several signaling pathways like hedgehog, wingless, FGF or dpp. In most cases it was, due to these pleiotropic effects, not possible to examine the relevance of matrix interactions for single pathways. The aim of this work was to examine the relevance of matrix interactions for the TGF-ß superfamily member DPP. Based on the fact that DPP is highly homologous to human BMP-2, the basic N-terminus of mature DPP was mutated, which has been shown to contain a heparin-binding site in BMP-2. Thus, a wildtype variant (D-MYC), a deletion variant (D-DEL), which lacked the whole basic part of the N-terminus and a duplication variant (D-DUP), which contained a second copy of the basic core moitiv, were generated. In order to characterise the variants biochemically, they were expressed in E.coli and refolded in a bioactive form. In chicken limbbud assay, the deletion variant was much more active than the wildtype variant, comparable to data of BMP-2. By means of biacore mesurements with the immobilised ectodomain of the high affinity type I receptor thick veins, it could be demonstrated, that the variants differ only in matrix binding and not in their receptor affinity. Different matrix binding was shown by Heparin FPLC. The biological relevance of the matrix interaction of DPP was examined in transgenic flies. To allow expression of the different variants under the control of various Gal4 driver lines, they were cloned behind an UAS-promoter site. In early tracheal development, a strong dependence of DPP signaling on matrix binding was observed. While ectopic expression of the deletion variant caused only minor defects, the branching pattern was strongly disturbed by overexpression of wildtype and duplication variant. Ubiquitous expression of the variants in the wing imaginal disc caused overproliferation of the disc and expansion of the omb target gene expression. The extent of phenotypes correlated with the matrix binding ability of the variants. Corresponding disturbances of the wing vein pattern was observed in adult flies. By the crossing of different dpp allels, transheterozygous animals were created, that lack dpp only in imaginal discs. Expression of the variants under the control of a suitable dpp-Gal4 driver line revealed insights into the biological relevance of matrix binding on DPP gradient formation and specific target gene activation in wing imaginal discs. It was shown, that all variants were able to generate a functional DPP gradient with correct expression of the target genes omb and spalt. Again a correlation between extent of target gene domains and matrix binding ability of the corresponding variants was found. Thus by mutating the N-terminus of DPP, it could be shown that this is responsible for DPP`s matrix interaction. Also the relevance of matrix binding of DPP in different tissues was examined. It turned out, that the reorganisation of tracheal branching by DPP strongly depends on matrix interactions wheras the establishing of a gradient in wing imaginal discs depends only gradually on matrix interactions. Based on these data a model for the action of DPP/TGFßs as morphogens was established. While a deletion of matrix binding leads to a decrease in specific bioactivity of the cytokine, the latter is increased by additional matrix binding sites.