Copper(I) hydridotrispyrazolylborate complexes were synthesized and analyzed as potential candidates for highly sensitive ethene detection. The best complexes were selected and used as sensitizers... Show moreCopper(I) hydridotrispyrazolylborate complexes were synthesized and analyzed as potential candidates for highly sensitive ethene detection. The best complexes were selected and used as sensitizers for extremely sensitive graphene-based ethene gas sensors. Show less
Jasmonic acid (JA) is a plant hormone that plays an important role in defense against wounding, insects and microbial pathogens. In defense responses against microbial pathogens JA acts... Show moreJasmonic acid (JA) is a plant hormone that plays an important role in defense against wounding, insects and microbial pathogens. In defense responses against microbial pathogens JA acts synergistically with the stress hormone ethylene. ORA59, belonging to the plant-specific class of AP2-domain transcription factors, is the main regulator of JA/ethylene-responsive defense gene expression in the model plant species Arabidopsis thaliana. The aim of the research described in this thesis was to study how the activity of ORA59 is regulated by JA. Studies on the promoter of the defense gene PDF1.2 showed that ORA59 regulates gene expression by interaction with GCCGCC motifs. Studies of ORA59 at the protein level indicated that JA controls ORA59 activity by promoting the nuclear localization and stabilization of the protein. Based on the findings it was postulated that there is an F-box protein that targets ORA59 for degradation, and a repressor protein that sequesters ORA59 in the cytoplasm. A protein interacting with ORA59 was identified by yeast two-hybrid screening. Further studies showed that this protein acts as a repressor of ORA59 by retaining it in the cytoplasm, which leads to fine-tuning of basal resistance against pathogens. Show less
Plants defend themselves against stress, including pathogen or herbivore attack, via biosynthesis of defense proteins and of protective compounds called secondary metabolites. Stress induces these... Show morePlants defend themselves against stress, including pathogen or herbivore attack, via biosynthesis of defense proteins and of protective compounds called secondary metabolites. Stress induces these responses via a complex signal transduction network with jasmonic acid (JA) and related compounds as major players. In some defense responses JA acts synergistically with the stress hormone ethylene. It is largely unknown how JA induces expression of defense genes. It is also not well understood how the synergistic interaction between JA and ethylene is brought about. Previous research has identified several genes encoding AP2/ERF-domain transcription factors, called ORAs, whose expression is rapidly induced by JA in Arabidopsis. In this thesis, the function of several ORAs is addressed and shows that certain ORAs, by regulating the expression of defense-related genes, play major roles in JA signaling and defense. Show less
