@phdthesis{vonMeyer2021, author = {von Meyer, Katharina}, title = {Molecular characterization of defensin-like proteins in the fertilization process of \(Nicotiana\) \(tabacum\)}, doi = {10.25972/OPUS-19214}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-192141}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Flowering plants or angiosperms have developed a fertilization mechanism that involves a female egg and central cell, as well as two male sperm cells. A male gametophyte carries the two non-mobile sperm cells, as they need to be delivered to the female gametophyte, the embryo sac. This transport is initiated by a pollen grain that is transmitted onto the stigma of the angiosperm flower. Here it hydrates, germinates, and forms a pollen tube, which navigates through the female plant tissue towards the ovary. The pollen tube grows into an ovule through the funiculus and into one of the two synergid cells. There, growth arrests and the pollen tube bursts, releasing the two sperm cells. One of the sperm cells fuses with the egg cell, giving rise to the embryo, the other one fuses with the central cell, developing into the endosperm, which nourishes the embryo during its development. After a successful fertilization, each ovule develops into a seed and a fruit is formed. This usually consists of several fertilized ovules. The directional growth of the pollen tube through the maternal tissues towards the ovule, as well as sperm cell release, requires a complex communication between the male and the female gametophyte to achieve reproductive success. Over the last years many studies have been performed, contributing to the understanding of cell-cell communication events between the two gametophytes, nevertheless still many aspects remain to be elucidated. This work focused on two topics: i.) Analysis of biological processes affected by pollination and fertilization in the Nicotiana tabacum flower and identification of cysteine rich proteins (CRPs) expressed via isolating and sequencing RNA from the tissue and analyzing the resulting data. ii.) Identification of the defensin-like protein (DEFL) responsible for pollen tube attraction towards the ovule in tobacco. First, tissue samples of pollen tubes and mature ovules were taken at different stages of the fertilization process (unpollinated ovules, after pollination, and after fertilization of the flower). RNA was then isolated and a transcriptome was created. The resulting reads were assembled and transcriptome data analysis was performed. Results showed that pollen tubes and mature ovules differ severely from each other, only sharing about 23 \% of the transcripts, indicating that different biological processes are dominant in the two gametophytes. A MapMan analysis revealed that in the pollen tube the most relevant biological processes are related to the cell wall, signaling, and transport, which supports the fact that the pollen tube grows fast to reach the ovule. On the other hand, in the ovule the values of highest significance were obtained for processes related to protein synthesis and regulation. Upon comparing the transcripts in the ovule before and after pollination, as well as after fertilization, it showed that pollination of the flower causes a bigger alteration in the ovule on the transcriptomic level compared to the step from pollination to fertilization. A total of 953 CRPs were identified in Nicotiana tabacum, including 116 DEFLs. Among those, the peptide responsible for pollen tube attraction towards the ovule should be found. Based on in-silico analysis four candidate peptides were chosen for further analysis, two of which had increased expression levels upon pollination and fertilization and the other two displayed an opposite expression. Quantitative real time PCR experiments were performed for the candidates, confirming the in-silico data in vivo. The candidate transcripts were then expressed in a cell free system and applied to pollen tubes in order to test their effect on the growing cells. Positive controls were used, where pollen tubes grew towards freshly dissected ovules. The four candidates did not provoke a pollen tube attraction towards the peptide, leaving open the chance to work on the 112 remaining DEFLs in the future.}, subject = {Samenpflanzen}, language = {en} } @phdthesis{Lange2021, author = {Lange, Manuel}, title = {Mutanten im RES-Oxylipin Signalweg von \(Arabidopsis\) \(thaliana\)}, doi = {10.25972/OPUS-16608}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-166085}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Reaktive elektrophile Spezies-Oxylipine (RES-Oxylipine) finden sich in Pflanzen- und Tierzellen und zeichnen sich durch eine f{\"u}r sie typische Anordnung von Atomen aus: einer α,β unges{\"a}ttigten Carbonyl Gruppe. In Pflanzenzellen geh{\"o}ren unter anderem 2-(E)-Hexenal und die Vorstufe der Jasmons{\"a}ure 12-Oxophytodiens{\"a}ure (OPDA) zu den RES-Oxylipinen, in Tierzellen z.B. Prostaglandin A1 (PGA). RES-Oxylipine {\"u}ben Signalfunktionen aus, wie dies in Pflanzenzellen funktioniert ist jedoch noch nicht bekannt. Ziel dieser Arbeit ist dabei einen m{\"o}glichen RES-Oxylipin Signalweg aufzukl{\"a}ren und die beteiligten Gene zu identifizieren. Es konnte aber gezeigt werden, dass die Expressionsrate von bestimmten Genen wie z.B. GST6 durch RES-Oxylipine spezifisch induziert wird. Zur Untersuchung des RES-Oxylipin Signalweges wurde der GST6 Promotor vor das Luciferase-Gen fusioniert, um so ein RES-Oxylipin spezifisches Reportersystem zu erhalten. Die Ethylmethansulfonat mutagenisierten Linien wurden auf ge{\"a}nderte Luciferase-Aktivit{\"a}t hin untersucht. Dabei wurden drei Mutanten isoliert, die in dieser Arbeit n{\"a}her untersucht wurden. Eine zeigte basal erh{\"o}hte Luciferase-Aktivit{\"a}t (constitutive overexpresser 3 = coe3) und die anderen beiden erniedrigte Luciferase-Aktivit{\"a}t nach PGA Gabe (non responsive 1 und 2 = nr1 und nr2). In dieser Arbeit konnte gezeigt werden, dass die Ph{\"a}notypen in allen 3 Mutanten rezessiv vererbt werden und die Mutanten nicht zueinander allel sind. Zudem war die ver{\"a}nderte Luciferase-Aktivit{\"a}t nicht durch ge{\"a}nderte Phytohormonspiegel oder durch Mutationen im GST6 Promotor erkl{\"a}rbar. Auf die Gabe von RES, wie Benzylisothiocyanat oder Sulforaphan, sowie auf endogene RES-Oxylipine, wie OPDA und Hexenal, reagierten die Mutanten auf {\"a}hnliche Weise, wie nach PGA Gabe. Weiterf{\"u}hrende Untersuchungen zeigten, dass sich die drei Mutanten stark voneinander unterschieden. Das Transkriptom kontrollbehandelter coe3 Pflanzen unterschied sich stark von dem der GST6::LUC Pflanzen. Die Mutante war trockenstressresistenter zudem war sie sensibler gegen{\"u}ber NaCl, was jedoch nicht von einer ver{\"a}nderten Reaktion auf Abscisins{\"a}ure herr{\"u}hrte. Des Weiteren war der Chlorophyllabbau bei dunkel inkubierten Bl{\"a}ttern geringer. Bei der Lokalisierung der Mutation, die noch nicht abgeschlossen ist, konnten Chromosom 2 und 5 als die wahrscheinlichsten Kandidaten ermittelt werden. Weitere Analysen sind n{\"o}tig um den Bereich weiter eingrenzen zu k{\"o}nnen. Die Mutante nr1, die sich durch verminderte Reaktion auf RES-Oxylipine auszeichnete, zeigte einen kleineren Wuchs und ein deutlich verz{\"o}gertes Bl{\"u}hen. Außerdem wies die Mutante erh{\"o}hte Argininspiegel in ihren Bl{\"a}ttern auf. Das Transkriptom unterschied sich sowohl bei kontrollbehandelten, als auch bei PGA behandelten nr1 Pflanzen massiv von denen der gleichbehandelten Kontrollen. Auch die nr1 schien trockenstressresistenter zu sein, sie war im Gegensatz zur coe3 aber robuster gegen{\"u}ber h{\"o}heren Konzentrationen an NaCl. Mit Hilfe eines „Next Generation Genome-Mappings" war es m{\"o}glich die Mutation am Ende von Chromosom 3 zu lokalisieren und auf f{\"u}nf m{\"o}gliche Gene einzugrenzen. Weitere Untersuchungen m{\"u}ssen nun kl{\"a}ren, welches dieser Gene urs{\"a}chlich f{\"u}r den Ph{\"a}notyp der ge{\"a}nderten Luciferase-Aktivit{\"a}t ist. Die zweite Mutante mit einer reduzierten Reaktion auf RES-Oxylipine war die nr2. {\"U}berraschender Weise unterschied sich das Transkriptom kontrollbehandelter nr2 Pflanzen deutlich st{\"a}rker von dem der gleichbehandelten GST6::LUC Pflanzen, als das nach PGA Gabe der Fall war. Sie reagierte nur mit sehr schwacher Luciferase-Aktivit{\"a}t auf Verwundung und war zudem deutlich sensibler gegen{\"u}ber Trockenheit. F{\"u}r eine zuk{\"u}nftige Lokalisation der urs{\"a}chlichen Mutation wurden entsprechende Kreuzungen durchgef{\"u}hrt aus deren Samen jederzeit mit einer Selektionierung begonnen werden kann. Mit dieser Arbeit konnte ein erster großer Schritt in Richtung Identifikation der, f{\"u}r die ge{\"a}nderte Luciferase-Aktivit{\"a}t, verantwortlichen Mutation gemacht werden, sowie erste Reaktionen der Mutanten auf abiotische Stressfaktoren untersucht werden. Somit ist man der Entdeckung von Signaltransduktionsfaktoren, die RES-Oxylipinabh{\"a}ngig reguliert werden, einen wichtigen Schritt n{\"a}her gekommen.}, subject = {Arabidopsis thaliana}, language = {de} } @phdthesis{Kumari2021, author = {Kumari, Khushbu}, title = {The role of lipid transfer proteins (LTPs) during the fertilization process in Arabidopsis thaliana}, doi = {10.25972/OPUS-19961}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-199613}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Double fertilization is a defining characteristic of flowering plants (angiosperms). As the sperm cells of higher plants are non-motile, they need to be transported to the female gametophyte via the growing pollen tube. The pollen-tube journey through the female tissues represents a highly complex process. To provide for successful reproduction it demands intricate communication between the cells of the two haploid gametophytes - the polar growing pollen tube (carrying the two non-motile sperm cells) and the ovule (hosting the egg cell/synergid cells). The polar growth of the pollen tube towards the female gamete is guided by different signaling molecules, including sugars, amino acids and peptides. Some of these belong to the family of lipid transfer proteins (LTPs), which are secreted cysteine-rich peptides. Depending on the plant species several lines of evidence have also suggested potential roles for LTPs during pollen germination or pollen-tube guidance. Although Arabidopsis thaliana has 49 annotated genes for LTPs, several of which are involved in plant immunity and cell-to-cell communication, the role of most members of this family during fertilization is unknown. The aim of this project was therefore to systematically identify LTPs which play a role in the fertilization process in A. thaliana, particularly during pollen tube guidance. To identify candidate proteins, the expression profile of LTPs in reproductive tissue was investigated. This was accomplished by in-silico bioinformatic analysis using different expression databases. Following confirmion of these results by qRT-PCR analysis, seven Type-I nsLTPs (LTP1, LTP2, LTP3, LTP4, LTP5, LTP6 and LTP12) were found to be exclusively expressed in pistils. Except for LTP12, all other pistil expressed LTPs were transcriptionally induced upon pollination. Using reporter-based transcriptional and translational fusions the temporal and spatial expression patterns together with protein localizations for LTP2, 3, 4, 5, 6, and 12 were determined in planta. Stable transgenic plants carrying PromLTP::GUS constructs of the six different LTP candidates showed that most of LTPs were expressed in the stigma/stylar region and were induced upon pollination. With respect to protein localization on the cellular level, they split into two categories: LTP2, LTP5 and LTP6 were localized in the cell wall, while LTP3, LTP4 and LTP12 were specifically targeted to the plasma membrane. For the functional characterization of the candidate LTPs, several T-DNA insertion mutant plant lines were investigated for phenotypes affecting the fertilization process. Pollen development and quality as well as their in-vitro germination rate did not differ between the different single ltp mutant lines and wildtype plants. Moreover, in-vivo cross pollination experiments revealed that tube growth and fertilization rate of the mutant plants were similar to wildtype plants. Altogether, no discernible phenotype was evident in other floral and vegetative parts between different single ltp mutant lines and wildtype plants. As there was no distinguishable phenotype observed for single ltp-ko plants, double knock out plants of the two highly homologous genes LTP2 (expressed in the female stigma, style and transmitting tract) and LTP5 (expressed in the stigma, style, pollen pollen-tube and transmitting tract) were generated using the EPCCRISPR-Cas9 genome editing technique. Two ltp2ltp5 mutant transgenic-lines (\#P31-P2 and \#P31-P3) with frameshift mutations in both the genes could be established. Further experiments showed, that the CRISPR/Cas9-mediated knock-out of LTP2/LTP5 resulted in significantly reduced fertilization success. Cell biological analyses revealed that the ltp2ltp5 double mutant was impaired in pollen tube guidance towards the ovules and that this phenotype correlated with aberrant callose depositions in the micropylar region during ovule development. Detailed analysis of in-vivo pollen-tube growth and reciprocal cross pollination assay suggested that, the severely compromised fertility was not caused by any defect in development of the pollen grains, but was due to the abnormal callose deposition in the embryo sac primarily concentrated at the synergid cell near the micropylar end. Aberrant callose deposition in ltp2ltp5 ovules pose a complete blockage for the growing pollen tube to change its polarity to enter the funiculus indicating funicular and micropylar defects in pollen tube guidance causing fertilization failure. Our finding suggests that female gametophyte expressed LTP2 and LTP5 play a crucial role in mediating pollen tube guidance process and ultimately having an effect on the fertilization success. In line with the existence of a N-terminal signal peptide, secreted LTPs might represent a well-suited mobile signal carrier in the plant's extracellular matrix. Previous reports suggested that, LTPs could act as chemoattractant peptide, imparting competence to the growing pollen tube, but the molecular mechanism is still obscure. The results obtained in this thesis further provide strong evidence, that LTP2/5 together regulate callose homeostasis and testable models are discussed. Future work is now required to elucidate the detailed molecular link between these LTPs and their potential interacting partners or receptors expressed in pollen and synergid cells, which should provide deeper insight into their functional role as regulatory molecules in the pollen tube guidance mechanism.}, subject = {Fertilization in angiosperm}, language = {en} }