Evolutionary tendencies in flowers of Marantaceae with special reference to the style movement mechanism

One of the quickest plant movements ever known is made by the ´explosive´ style in Marantaceae in the service of secondary pollen presentation – herewith showing a striking apomorphy to the sister Cannaceae that might be of high evolutionary consequence. Though known already since the beginning of the 19th century the underlying mechanism of the movement has hitherto not been clarified. The present study reports about the biomechanics of the style-staminode complex and the hydraulic principles of the movement. For the first time it is shown by experiment that in Maranta noctiflora through longitudinal growth of the maturing style in the ´straitjacket´ of the hooded staminode both the hold of the style prior to its release and its tensioning for the movement are brought about. The longer the style grows in relation to the enclosing hooded staminode the more does its capacity for curling up for pollen transfer increase. Hereby I distinguish between the ´basic tension´ that a growing style builds up anyway, even when the hooded staminode is removed beforehand, and the ´induced tension´ which comes about only under the pressure of a ´too short´ hooded staminode and which enables the movement. The results of these investigations are discussed in view of previous interpretations ranging from possible biomechanical to electrophysiological mechanisms. To understand furthermore by which means the style gives way to the strong bending movement without suffering outwardly visible damage I examined its anatomical structure in several genera for its mechanical and hydraulic properties and for the determination of the entire curvature after release. The actual bending part contains tubulate cells whose walls are extraordinarily porous and large longitudinal intercellular spaces. SEM indicates the starting points of cell-wall loosening in primary walls and lysis of middle lamellae - probably through an intense pectinase activity in the maturing style. Fluorescence pictures of macerated and living style-tissue confirm cell-wall perforations that do apparently connect neighbouring cells, which leads to an extremely permeable parenchyma. The ´water-body´ can be shifted from central to dorsal cell layers to support the bending. The geometrical form of the curvature is determined by the vascular bundles. I conclude that the style in Marantaceae contains no ´antagonistic´ motile tissues as in Mimosa or Dionaea. Instead, through self-maceration it develops to a ´hydraulic tissue´ which carries out an irreversible movement through a sudden reshaping. To ascertain the evolutionary consequence of this apomorphic pollination mechanism the diversity and systematic value of hooded staminodes are examined. For this hooded staminodes of 24 genera are sorted according to a minimalistic selection of shape characters and eight morphological types are abstracted from the resulting groups. These types are mapped onto an already available maximally parsimonious tree comprising five major clades. An amazing correspondence is found between the morphological types and the clades; several sister-relationships are confirmed and in cases of uncertain position possible evolutionary pathways, such as convergence, dispersal or re-migration, are discussed, as well as the great evolutionary tendencies for the entire family in which – at least as regards the shape of hooded staminodes – there is obviously a tendency from complicated to strongly simplified forms. It suggests itself that such simplifying derivations may very likely have taken place as adaptations to pollinating animals about which at present too little is known. The value of morphological characters in relation to modern phylogenetic analysis is discussed and conditions for the selection of morphological characters valuable for a systematic grouping are proposed. Altogether, in view of the evolutionary success of Marantaceae compared with Cannaceae the movement mechanism of the style-staminode complex can safely be considered a key innovation within the order Zingiberales.

Novel isolates of Cydia pomonella granulovirus (CpGV): deciphering the molecular mechanism for overcoming CpGV resistance in codling moth (Cydia pomonella)

During the last twenty years, Cydia pomonolla granulovirus (CpGV, Baculoviridae) has become the most important biological control agent for the codling moth (CM) in organic and integrated apple production. All registered products in Europe are based on the isolate CpGV-M, which was discovered 1964 in Mexico. A serious threat to future application of CpGV is the occurrence of CM field populations resistant to CpGV. Since 2003, populations with up to 10,000-fold reduced susceptibility were reported from orchards in Germany, France, Italy, Switzerland, Austria and the Netherlands. A putative alternative to CpGV-M are novel CpGV isolates which are able to overcome CM resistance. This thesis focuses on the identification and characterisation of resistance overcoming CpGV isolates and the analysis of their molecular difference to CpGV-M.rnSixteen CpGV isolates were tested against CM lab strains in bioassays. Hereby, five isolates were identified which were able to completely overcome resistance. The genomes of these isolates were compared to CpGV-M by restriction fragment length polymorphism (RFLP) analysis. To identify the molecular factor responsible for improved virulence of some CpGV isolates, major genomic differences were sequenced and analysed. A 0.7 kb insertion was found in CpGV-I01, -I12 and -E2, but not in other resistance overcoming isolates. Analysis of the insertions sequence revealed that it might be due to a transposition event, but not involved in overcoming resistance. rnFor unequivocal identification of CpGV isolates, a new method based on molecular analysis was established. Partial sequencing of the conserved polyhedrin/granulin (polh/gran), late expression factor-8 (lef-8) and late expression factor-9 (lef-9) genes revealed single nucleotide polymorphisms (SNPs). SNP analysis correlated with the grouping obtained by RFLP analysis. A phylogenetic classification due to different genome types A-E is proposed. Phylogenetic analysis suggested that CpGV-M was the phylogenetically youngest of the tested CpGV isolates.rnWhole genome sequencing of two resistance overcoming isolates CpGV-I12 (type D genome) and -S (type E genome) and CpGV-M (type A genome) was performed. Comparison of the three genomes revealed a high sequence identity. Several insertions and deletions ranging from 1-700 nucleotides (nt) were found. Comparison on open reading frame (ORF) level revealed that CpGV-I12 and -S shared only one protein alteration when compared to CpGV-M: a stretch of 24 nt present in ORF cp24 was not found in any of the resistance overcoming isolates. Cp24 codes for the early gene pe38. Combined with the results of phylogenetic analysis, it is proposed that these 24 nt are a recent insertion into the CpGV-M genome. The role of pe38 in overcoming resistance was investigated by knocking out pe38 of a CpGV-M based bacmid and swapping of CpGV-I12 pe38 of into the k.o. bacmid. When pe38 of CpGV-I12 was inserted into the k.o. bacmid, the infectivity could not be rescued, suggesting that the genomic portion of pe38 might play a role in its function.rnIt can be concluded that the recently observed CpGV resistance in CM is only related to type A genomes. RFLP and SNP analysis provide tools for identifying and characterising different CpGV isolates reliably, a pre-condition for a future registration of CpGV products based on novel CpGV isolates.rnrnrn

Funktionelle Charakterisierung der Metalloendopeptidasen Meprin alpha und Meprin beta unter besonderer Berücksichtigung pathologischer Umstände in der menschlichen Dermis

Im Rahmen dieser Arbeit wurden zwei neuentdeckte Astacin-ähnliche-Proteasen LAST undrnLAST_MAM aus dem Pfeilschwanzkrebs Limulus polyphemus funktionell charakterisiert.rnInsbesondere LAST_MAM, eignet sich zur phylogenetischen Untersuchung, hinsichtlich derrnEvolution von Astacin-ähnlichen-Proteasen mit MAM-Domäne, zu denen auch die Meprinernzählen. Es wurde deutlich, dass LAST_MAM nicht unmittelbar mit anderen Astacinen, diernüber eine MAM-Domäne verfügen, verwandt ist, und dass von einer divergenten Entwicklungrndieser Proteasen und der MAM-Domäne selbst ausgegangen werden muss.rnMeprin Metalloendopeptidasen werden in membrangebundener und sezernierter Form,rnvorwiegend in Epithelien aber auch in intestinalen Leukozyten und bestimmten Krebszellenrnexprimiert. Meprin

Systematics, phylogeny and biogeography of Juncaginaceae

I investigated the systematics, phylogeny and biogeographical history of Juncaginaceae, a small family of the early-diverging monocot order Alismatales which comprises about 30 species of annual and perennial herbs. A wide range of methods from classical taxonomy to molecular systematic and biogeographic approaches was used. rnrnIn Chapter 1, a phylogenetic analysis of the family and members of Alismatales was conducted to clarify the circumscription of Juncaginaceae and intrafamilial relationships. For the first time, all accepted genera and those associated with the family in the past were analysed together. Phylogenetic analysis of three molecular markers (rbcL, matK, and atpA) showed that Juncaginaceae are not monophyletic. As a consequence the family is re-circumscribed to exclude Maundia which is pro-posed to belong to a separate family Maundiaceae, reducing Juncaginaceae to include Tetroncium, Cycnogeton and Triglochin. Tetroncium is weakly supported as sister to the rest of the family. The reinstated Cycnogeton (formerly included in Triglochin) is highly supported as sister to Triglochin s.str. Lilaea is nested within Triglochin s. str. and highly supported as sister to the T. bulbosa complex. The results of the molecular analysis are discussed in combination with morphological characters, a key to the genera of the family is given, and several new combinations are made.rnrnIn Chapter 2, phylogenetic relationships in Triglochin were investigated. A species-level phylogeny was constructed based on molecular data obtained from nuclear (ITS, internal transcribed spacer) and chloroplast sequence data (psbA-trnH, matK). Based on the phylogeny of the group, divergence times were estimated and ancestral distribution areas reconstructed. The monophyly of Triglochin is confirmed and relationships between the major lineages of the genus were resolved. A clade comprising the Mediterranean/African T. bulbosa complex and the American T. scilloides (= Lilaea s.) is sister to the rest of the genus which contains two main clades. In the first, the widespread T. striata is sister to a clade comprising annual Triglochin species from Australia. The second clade comprises T. palustris as sister to the T. maritima complex, of which the latter is further divided into a Eurasian and an American subclade. Diversification in Triglochin began in the Miocene or Oligocene, and most disjunctions in Triglochin were dated to the Miocene. Taxonomic diversity in some clades is strongly linked to habitat shifts and can not be observed in old but ecologically invariable lineages such as the non-monophyletic T. maritima.rnrnChapter 3 is a collaborative revision of the Triglochin bulbosa complex, a monophyletic group from the Mediterranean region and Africa. One new species, Triglochin buchenaui, and two new subspecies, T. bulbosa subsp. calcicola and subsp. quarcicola, from South Africa were described. Furthermore, two taxa were elevated to species rank and two reinstated. Altogether, seven species and four subspecies are recognised. An identification key, detailed descriptions and accounts of the ecology and distribution of the taxa are provided. An IUCN conservation status is proposed for each taxon.rnrnChapter 4 deals with the monotypic Tetroncium from southern South America. Tetroncium magellanicum is the only dioecious species in the family. The taxonomic history of the species is described, type material is traced, and a lectotype for the name is designated. Based on an extensive study of herbarium specimens and literature, a detailed description of the species and notes on its ecology and conservation status are provided. A detailed map showing the known distribution area of T. magellanicum is presented. rnrnIn Chapter 5, the flower structure of the rare Australian endemic Maundia triglochinoides (Maundiaceae, see Chapter 1) was studied in a collaborative project. As the morphology of Maundia is poorly known and some characters were described differently in the literature, inflorescences, flowers and fruits were studied using serial mictrotome sections and scanning electron microscopy. The phylogenetic placement, affinities to other taxa, and the evolution of certain characters are discussed. As Maundia exhibits a mosaic of characters of other families of tepaloid core Alismatales, its segregation as a separate family seems plausible.

Diversity of baculoviruses isolated from cutworms (Agrotis spp.)

Larven der Eulenfalter, Gattung Agrotis (Lepidoptera: Noctuidae), sind Schädlinge in der Landwirtschaft, welche gravierende Fraßschäden an bodennahen Pflanzenteilen verursachen. Häufig kommt es zum Absterben der noch jungen Pflanzen oder zu Beschädigungen der pflanzlichen Produkte, was zu finanziellen Ertragsverlusten führt. Zwei der wichtigsten landwirtschaftlichen Schädlinge der Gattung Agrotis sind die Larven der Saateule (Agrotis segetum) und der Ypsiloneule (Agrotis ipsilon), welche bisher überwiegend mittels chemischer Pestizide bekämpft werden. Als eine umweltfreundliche, nachhaltige und vielversprechende Alternative in der Bekämpfung wird der Einsatz von Baculoviren berücksichtigt. Baculoviren zeichnen sich durch eine hohe Virulenz und einem sehr engen Wirtsbereich aus. Häufig werden nur wenige nah verwandte Arten der gleichen Gattung infiziert. Aus der Gattung Agrotis wurden bisher mindestens vier Baculoviren isoliert und charakterisiert, welche als potentielle biologische Pflanzenschutzmittel in Frage kommen; sie gehören zu zwei Gattungen der Baculoviren: rnAlphabaculovirusrn(i) Agrotis segetum nucleopolyhedrovirus A (AgseNPV-A)rn(ii) Agrotis segetum nucleopolyhedrovirus B (AgseNPV-B)rn(iii) Agrotis ipsilon nucleopolyhedrovirus (AgipNPV)rnBetabaculovirusrn(i) Agrotis segetum granulovirus (AgseGV).rnDie Genome der AgseNPV-A, AgipNPV sowie des AgseGV wurden in vorherigen Studien bereits vollständig sequenziert und publiziert. In der vorgelegten Dissertation wurde das AgseNPV-B sequenziert und umfassend mit AgseNPV-A und AgipNPV verglichen. Das Genom von AgseNPV-B ist 148981 Kbp groß und kodiert ….. offene Leseraster. Phylogenetische Analysen zeigen eine enge Verwandtschaft dieser drei Viren und klassifizieren AgseNPV-B als eine neue Art innerhalb der Gattung Alphabaculovirus. Auf Basis der vorhandenen Genomsequenzen konnte eine PCR-basierende Methode zur Detektion und Quantifizierung on AgseNPV-A, AgseNPV-B, AgipNPV und AgseGV etabliert werden. Dises Verfahren ermöglichte die Quantifizierung von AgseNPV-B und AgseGV in Larven von A. segetum, die von beiden Viren zeitgleichinfiziert waren. Durch das gemeinsame Auftreten dieser beiden Wiren innerhalb eines Wirtsindividuums stellte sich die Frage, welche Art der Interaktion bei einer Ko-Infektion vorliegt. Durch Mischinfektionsversuche von AgseNPV-B und AgseGV konnte gezeigt werden, dass beide Viren um die Ressourcen der Larven konkurrieren. Eine für landwirtschaftliche Zwecke vorteilige Interaktion, wie das vorzeitige Verenden der Larven, das bereits für andere interagierende Baculoviren nachgewiesen wurde, konnte ausgeschlossen werden. Neben den Mischinfektionsversuchen wurden auch AgseGV und AgseNPV-B einzeln auf ihre Eignung als biologisches Pflanzenschutzmittel getestet. AgseGV zeigte in den Laborversuchen eine relativ langsame Wirkung, während AgseNPV-B durchaus Potential für ein rasche Abtötung besitzt. rnDie durchgeführten Aktivitätsstudien und die Charakterisierung von AgseNPV-B als neue Art erlauben ein vertieftes biologisches und molekulares Verständnis des Virus legen den Grundstein für und eine mögliche spätere Zulassung als Pflanzenschutzmittel. Die Methode zur Identifizierung und Quantifizierung der Agrotis-Baculoviren stellt ein wichtiges Instrument in der Qualitätskontrolle für Produzenten dar und ermöglicht zudem weitere Untersuchungen von Agrotis-Baculoviren in Mischinfektionen.