15 resultados para Gerste
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Die Morphogenese einer Pflanzenzelle wird in großem Maße durch die Dynamik kortikaler Mikrotubuli (MT) bestimmt, die auf die Zellwandsynthese Einfluß nehmen. In dieser Arbeit wurden die Transkriptmengen der alpha-Tubulin-Isotypen und des gamma-Tubulin während der Entwicklung des Gerstenblattes analysiert, um Zusammenhänge zu bereits beschriebenen Umwandlungen im kortikalen MT-Cytoskelett der Mesophyllzellen aufzudecken. Erstmals konnte bei einer höheren Pflanze die Genexpression auf RNA-Ebene innerhalb einer Tubulin-Multigenfamilie im Verlauf der Blattentwicklung umfassend dargestellt werden.Es wurden blattspezifische cDNA-Bibliotheken erstellt und mittels RT-PCR homologe DNA-Gensonden für die Screeningprozesse der cDNA-Bibliotheken hergestellt. cDNA-Sequenzen von alpha-, beta-, und gamma-Tubulin konnten isoliert werden. Weitere, weniger abundante alpha-Tubulin-Sequenzen wurden während zusätzlicher Screeningrunden über PCR-Ausschluß häufig vertretener, bereits bekannter Isotypen isoliert.Die cDNA-Sequenzen von insgesamt fünf verschiedenen Isotypen des alpha-Tubulin konnten aufgeklärt werden, drei Isotypen wiesen bis zu fünf im nicht kodierenden 3´-Bereich verkürzte Varianten auf, die aber in ihrer Anzahl deutlich unterrepräsentiert waren. Die abgeleiteten Aminosäuresequenzen umfassten bei drei Isotypen 451 Aminosäuren (AS), zwei Isotypen waren im C-Terminus um eine bzw. um zwei AS kürzer. Die fünf alpha-Tubulin-Isotypen wiesen charakteristische Expressionsmuster auf, die in drei Klassen unterteilbar waren. Die Isotypen HVATUB1 und HVATUB5 (MT-Band-Isotypen) hatten den maximalen Gehalt in Blattbereichen, in denen auch hauptsächlich Mesophyllzellen mit kortikalen MT-Bänderungen vorkommen, wobei HVATUB5 den am schwächsten exprimierte Isotyp darstellte. HVATUB3 (Random-MT-Isotyp) zeigte die stärksten Expressionsraten. Die im Meristem und meristemnahen Bereichen bereits recht hohe Abundanz erreichte erst nach der Zellstreckungszone in einer Blattzone das Maximum, in dem hauptsächlich Mesophyllzellen mit zerstreut angeordneten MT anzutreffen sind. Die Isotypen HVATUB2 und HVATUB4 (MImax-Isotypen) waren in mitotisch aktiven, basalen Blattbereichen dominant.Die cDNA-Sequenz vom gamma-Tubulin der Gerste, HVGTUB, wurde ermittelt; die abgeleitete Aminosäuresequenz bestand aus 469 AS. Das Auftreten einer im nicht kodierenden 3´-Bereich kürzeren Variante konnte erstmals bei pflanzlichem gamma-Tubulin beschrieben werden. Southernblot-Analysen ließen darauf schließen, daß gamma-Tubulin nur als Einzelkopie im Genom der Gerste vorkommt. gamma-Tubulin wurde im mitosereichen Meristem der Blattbasis am stärksten exprimiert. Da die Abnahme der Transkriptmenge weitaus langsamer verlief als die Abnahme der Zellteilungsaktivität, ist anzunehmen, daß gamma-Tubulin neben der Erfüllung von mitose- und zellteilungsspezifischen Funktionen auch eine Rolle im Zusammenhang mit der Dynamik des kortikalen MT-Cytoskeletts spielt. Einen ersten Schritt zur Aufklärung der Genfamilie des beta-Tubulin bei Gerste stellt die Isolierung drei verschiedener cDNA-Sequenzen von beta-Tubulin dar.
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zu finden bey Johann Andreas Steißlinger, Kupfferstecher
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Von L. Hiltner und F. Lang
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Thesis--Tübingen Univ.
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Lebenslauf.
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"Literatur- und quellenverzeichnis": p. 123-124.
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Sonderabdruck aus der Baltischen Wochenschrift für Landwirtschaft, Gewerbfleiss & Handel in Dorpat, 1 1888, Nr. 41; 1889, Nr. 48; 1890, Nr. 51 und 52.
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Thesis (doctoral)--Technische Universität München, 1907.
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Includes bibliographical references.
Poly(lactide): from hyperbranched copolyesters to new block copolymers with functional methacrylates
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The prologue of this thesis (Chapter 1.0) gives a general overview on lactone based poly(ester) chemistry with a focus on advanced synthetic strategies for ring-opening polymerization, including the emerging field of organo catalysis. This section is followed by a presentation of the state-of the art regarding the two central fields of the thesis: (i) polyfunctional and branched poly(ester)s in Chapter 1.1 as well as (ii) the development of new poly(ester) based block copolymers with functional methacrylates (Chapter 1.2). Chapter 2 deals with the synthesis of new, non-linear poly(ester) structures. In Chapter 2.1, the synthesis of poly(lactide)-based multiarm stars, prepared via a grafting-from method, is described. The hyperbranched poly(ether)-poly(ol) poly(glycerol) is employed as a hydrophilic core molecule. The resulting star block copolymers exhibit potential as phase transfer agents and can stabilize hydrophilic dyes in a hydrophobic environment. In Chapter 2.2, this approach is expanded to poly(glycolide) multiarm star polymers. The problem of the poor solubility of linear poly(glycolide)s in common organic solvents combined with an improvement of the thermal properties has been approached by the reduction of the total chain length. In Chapter 2.3, the first successful synthesis of hyperbranched poly(lactide)s is presented. The ring-opening, multibranching copolymerization of lactide with the “inimer” 5HDON (a hydroxyl-functional lactone monomer) was carefully examined. Besides a precise molecular characterization involving the determination of the degree of branching, we were able to put forward a reaction model for the formation of branching during polymerization. Several innovative approaches to amphiphilic poly(ester)/poly(methacrylate)-based block copolymers are presented in the third part of the thesis (Chapter 3). Block copolymer build-up especially relies on the combination of ring-opening and living radical polymerization. Atom transfer radical polymerization has been successfully combined with lactide ring-opening, using a “double headed” initiator. This strategy allowed for the realization of poly(lactide)-block-poly(2-hydroxyethyl methacrylate) copolymers, which represent promising materials for tissue engineering scaffolds with anti-fouling properties (Chapter 3.1). The two-step/one-pot approach forgoes the use of protecting groups for HEMA by a careful selection of the reaction conditions. A series of potentially biocompatible and partially biodegradable homo- and block copolymers is described in Chapter 3.2. In order to create a block copolymer with a comparably strong hydrophilic character, a new acetal-protected glycerol monomethacrylate monomer (cis-1,3- benzylidene glycerol methacrylate/BGMA) was designed. The hydrophobic poly(BGMA) could be readily transformed into the hydrophilic and water-soluble poly(iso-glycerol methacrylate) (PIGMA) by mild acidic hydrolysis. Block copolymers of PIGMA and poly(lactide) exhibited interesting spherical aggregates in aqueous environment which could be significantly influenced by variation of the poly(lactide)s stereo-structure. In Chapter 3.3, pH-sensitive poly(ethylene glycol)-b-PBGMA copolymers are described. At slightly acidic pH values (pH 4/37°C), they decompose due to a polarity change of the BGMA block caused by progressing acetal cleavage. This stimuli-responsive behavior renders the system highly attractive for the targeted delivery of anti-cancer drugs. In Chapter 3.4, which was realized in cooperation, the concept of biocompatible, amphiphilic poly(lactide) based polymer drug conjugates, was pursued. This was accomplished in the form of fluorescently labeled poly(HPMA)-b-poly(lactide) copolymers. Fluorescence correlation spectroscopy (FCS) of partially biodegradable block copolymer aggregates exhibited fast cellular uptake by human cervix adenocarcinoma cells without showing toxic effects in the examined concentration range (Chapter 4.1). The current state of further projects which will be pursued in future studies is addressed in Chapter 4. This covers the synthesis of biocompatible star block copolymers (Chapter 4.2) and the development of new methacrylate monomers for biomedical applications (Chapters 4.3 and 4.4). Finally, the further investigation of hydroxyl-functional lactones and carbonates which are promising candidates for the synthesis of new hydrophilic linear or hyperbranched biopolymers, is addressed in Chapter 4.5.
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I. K.
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"Extrait de la Revue des questions scientifiques, 1887-88."
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"De quelques travaux récents sur la botanique et la médecine des anciens Mexicains": p. [147]-157.
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I. Schwarzwälder Dorfgeschichten. Barfussele. Der Tolpatsch. Die Kriegspfeife. Des Schlossbauers Vefele. Tonele mit der gebissenen Wange. Die feindlichen Brüder. Befehlerles. Kopfen und Gerste.--II-III. Das Landhaus am Rhein.
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The present survey of species diversity of cultivated plants is the first for Syria. Some cultivated species will be added in the future, because due to the civil war in Syria, it was not possible to visit the country in the frame of the present work, as initially planned. Checklists proved to be a useful tool for overviewing the cultivated plants of selected areas and allow a characterization of the state of plant genetic resources of Syria. Syria has experienced several civilizations. Man settled in this productive land since ancient times and used its resources. However, such use has led to changes in vegetation and decline of wildlife through the country, in seashore areas, interior, mountains, and grassland. Plant domestication and growing started more than 10,000 years ago in West Asia. Since then, plentiful of economic plant species were present and used by man and his domesticated animals. Forming a part of the Fertile Crescent, where many of the world’s agricultural plants have evolved, Syria is extremely rich in agrobiodiversity. Wild progenitors of wheat and barley and wild relatives of many fruit trees such as almonds and pistachio as well as forage species are still found in marginal lands and less disturbed areas. These are threatened by a wide range of human activities, notably modern, extensive agriculture, overgrazing, overcutting and urban expansion. Syria is also considered as part of one of the main centres of origin, according to Vavilov, who had collected in Syria in 1926. The first expeditions to crop fields showed the exclusive nature of cultivated plants in Syria with a high number of endemic forms. Furthermore, Syria is a part of a biodiversity hotspot. Several studies have been performed to study agrobiodiversity in different parts of Syria, but usually on wild species. Many collections have been carried out; however, they focussed preferably on cereals and pulses, and particularly on wheat, like Vavilov’s expedition. Only 30 crops make up the major part of the conserved Syrian crop plant material in the genebank, indicating that most of the remaining 7,000 species of cultivated plants and many other valuable genetic resources species have only been included on a limited scale in the genebank collections. Although a small country (185,180 km2), Syria accommodates numerous ecosystems that allow for a large diversity of plant genetic resources for agriculture ranging from cold-requiring to subtropical crops to live and thrive. Only few references are available in this respect. The aim of the present study was to complete a checklist of Syria’s cultivated plants of agriculture and horticulture excluding plants only grown as ornamental or for forestry. Furthermore, plants taken for reforestation have not been included, if they do not have also agricultural or horticultural uses. Therefore, the inclusion of plants into the checklist follows the same principles as “Mansfeld’s Encyclopedia”. Main sources of information were published literature, floras of Syria, Lebanon and the Mediterranean, as well as Syrian printed sources in Arabic and/or English, reports from FAO on agricultural statistics in Syria, and data from ICARDA and Bioversity International. In addition, personal observations gathered during professional work in the General Commission for Scientific Agricultural Research (GCSAR) in Syria (since 1989) and participation in projects were taken into account. These were: (1) A project on “Conservation and Sustainable Use of Dry Land Agrobiodiversity in the Near East” with participation of Jordan, Lebanon, Syria, and the Palestinian Authority, focussing on landraces and wild relatives of barley, wheat, lentil, alliums, feed legumes, and fruit trees (1999–2005). (2) A project for vegetable landraces (1993–1995) in collaboration with the former International Plant Genetic Resources Institute and the UN Development Programme, in which 380 local vegetable accessions were evaluated. For medicinal plants and fruit trees I was in personal contact with departments of GCSAR and the Ministry of Agriculture and Agrarian Reform, as well as with private organizations. The resulting checklist was compared with the catalogues of crop plants of Italy and a checklist of cultivated plants of Iraq. The cultivated plant species are presented in alphabetical order according to their accepted scientific names. Each entry consists of a nomenclatural part, folk names, details of plant uses, the distribution in Syria (by provinces), a textual description, and references to literature. In total, 262 species belonging to 146 genera and 57 families were identified. Within-species (intraspecific) diversity is a significant measure of the biodiversity. Intraspecific diversity for wild plants has been and remains to be well studied, but for crop plants there are only few results. Mansfeld’s method is an actual logical contribution to such studies. Among the families, the following have the highest number of crop species: Leguminosae (34 spp.), Rosaceae (24), Gramineae (18), Labiatae (18), Compositae (14), Cruciferae (14), Cucurbitaceae (11), Rutaceae (10), Malvaceae (9), Alliaceae (7), and Anacardiaceae (7). The establishment of an effective programme for the maintenance of plant genetic resources in Syria started in the mid-1970s. This programme considered ex situ and in situ collection of the genetic resources of various field crops, fruit trees and vegetables. From a plant genetic resources viewpoint, it is clear that the homegarden is an important location for the cultivation of so-called neglected and underutilized species (neglected from a research side and underutilized from a larger economic side). Such species have so far not received much care from ecologists, botanists and agronomists, and they are considerably under-represented in genebanks.
