Protein and mRNA Studies of Rat FA1/Pref-1/dlk

Persdotter Hedlund, Gabriella

January 2007

The timing of cell differentiation is important for development and renewal of well functioning organs and tissues. One protein involved in this process is Preadipocyte factor 1 (Pref-1). Most likely, the role of this protein is to maintain cells in an undifferentiated state. The work presented in this thesis, has employed the rat as an animal model for the studies of Pref-1. Rat models of obesity (Zucker, ZO) and type II diabetes (Goto-Kakizaki, GK) were used to determine metabolic influence on Pref-1 and adipokine mRNA expression in adipose tissues. The Pref-1 cleavage product was purified from rat amniotic fluid and physicochemically characterised. Concentration of Pref-1 in serum, amniotic fluid and urine was determined by ELISA. Soluble Pref-1 and the compartmentalisation of the protein were highly similar to what had previously been demonstrated in mice and humans. Immunohistochemistry studies displayed similar staining patterns of Pref-1 in adrenal glands, ovaries and pituitary glands of non-pregnant and pregnant rats. This suggests that pregnancy do not influence the protein expression of Pref-1 in these organs. In the GK rats, Pref-1 mRNA was altered and a decrease in the visceral compared to subcutaneous adipose depots was demonstrated, in contrast to the ZO rats. Additionally, adiponectin, leptin, IL-6 and TNF-α mRNA levels were altered in the diabetic strain, indicating that this animal model expresses many of the typical features of type II diabetes. In conclusion, the rat is an appropriate model for studies of FA1/Pref-1/dlk. Pref-1 is highly elevated in fetal and maternal serum during pregnancy. However, the expression of Pref-1 in some endocrine tissues did not alter due to pregnancy. The mRNA expression of Pref-1 was altered between adipose depots and demonstrated to be affected by metabolic disturbances in the animals.

Laboratory animals

Preadipocyte factor 1

delta like protein

Fetal antigen 1

Goto-Kakizaki

Zucker

adipokines

adipose tissue

diabetes

obesity

Försöksdjursvetenskap

Characterization of the differential significance of sugar Import in the apicomplexan parasites Toxoplasma gondii and Plasmodium

Blume, Martin

01 November 2011

Toxoplasma gondii und Plasmodium Spezies sind obligat intrazelluläre Parasiten, die Zucker zur Energiehomöostase als auch für die Synthese lebenswichtiger Makromoleküle verwenden. Die hier vorgestellten Daten zeigen, dass der Glukosetransporter von T. gondii, TgGT1, und die homologen Transporter von P. falciparum und P. berghei, PfHT1 und PbHT1, neben Glukose auch Mannose, Fructose und Galactose transportieren. Toxoplasma Tachyzoiten exprimieren neben TgGT1 noch einen weiteren putative Zuckertransporter (TgST2) an der Parasitenoberfläche. Beide Proteine sind nicht essentiell, wie durch ihre individuelle und gleichzeitige Gendeletion belegt wird. Die Deletion von TgGT1 bewirkt einen geringen Wachstumsdefekt. Die Mutante ?tggt1 zeigt keine Glukoseaufnahmeaktivität und folglich eine verminderte glukoseabhängige Motilität. In ?tggt1 Parasiten wird ein verstärkter Glutaminstoffwechsel nachgewiesen, der ausreichend ist dessen Motilität und Replikationsaktivität zu erhalten. Die ?tggt1 Mutante gewährt Einblick in die Anpassungsfähigkeit von T. gondii an unterschiedliche Wirtszellen. Im Gegensatz zu T. gondii benötigen erythrozytäre Plasmodien Glukose und der Transporter PfHT1 wird derzeit als drug-target eingestuft. Hier wird gezeigt, dass das PfHT1-Homolog, PbHT1, essentiell in Blutstadien des Nagerparasiten Plasmodium berghei ist, jedoch auch während des gesamten Lebenszyklus des Parasiten exprimiert wird. Ein PfHT1- und PbHT1-spezifischer Inhibitor (Compound 3361) kann die Entwicklung von P. berghei Leberstadien und Okineten stark hemmen. Um zukünftig PfHT1-Inhibitoren im Hochdurchsatzverfahren zu identifizieren und testen zu können, wurden auf Saccharomyces cerevisiae und P. berghei basierende Expressionssysteme für PfHT1 entwickelt. Abschließend stellt diese Arbeit die Unterschiedlichkeit des zentralen Kohlenstoffwechsels von Toxoplasma und Plasmodium Parasiten durch bisher unbekannter Aspekte heraus. / Toxoplasma gondii and Plasmodium species are obligate intracellular pathogens that utilize host sugars for energy homeostasis and macro molecular synthesis. Here, we report that the T. gondii glucose transporter, TgGT1, and of its homologs of P. falciparum and P. berghei (PfHT1 and PbHT1) transport glucose, mannose, galactose and fructose. Besides TgGT1, Toxoplasma harbours one additional surface localized putative sugar transporter (TgST2). Surprisingly both Proteins are nonessential and only the deletion of TgGT1 inflicts a mild defect in the parasite replication. The ?tggt1 mutant is unable to import glucose and consequently displays an attenuated glucose-dependent motility, which is completely rescued by glutamine. ?tggt1 performs increased glutamine metabolism that is sufficient to sustain motility and replication. The ?tggt1 strain provides a model for further investigating its adaptation to disparate host cells. In contrast to T. gondii, erythrocytic stages of Plasmodium species critically depend on glucose uptake, and the PfHT1 transporter is considered as a drug target against human malaria. Here, we report that PbHT1 (a PfHT1 homolog) is also essential for blood stage development in the rodent malaria parasite P. berghei. PbHT1 is expressed throughout the life cycle. Moreover, a PfHT1- and PbHT1-specific sugar analogue, compound 3361, can inhibit the hepatic development and ookinete formation in P. berghei. These results signify that PbHT1 and exogenous glucose are also required during the ex-erythrocytic stages of P. berghei. To permit a high-throughput screening of selective PfHT1 inhibitors and their subsequent in vivo assessment, we have established a PfHT1-expressing Saccharomyces cerevisiae mutant and generated a PfHT1-dependent ?pbht1 of P. berghei strain. This thesis underscores various previously unknown aspects of sugar metabolism in Toxoplasma and Plasmodium, and unravel their metabolic differences.

Metabolismus

Glukose

Zucker

Toxoplasma gondii

Plasmodium

Transporter

metabolism

Toxoplasma gondii

Plasmodium

glucose

sugar

transporter

570 Biowissenschaften, Biologie

32 Biologie

XD 9100

ddc:570

The future of the world sugar market

Nolte, Stephan-Alfons

08 May 2008

Die Dissertation beschäftigt sich mit den Auswirkungen verschiedener Politikoptionen auf den Weltzuckermarkt. Dazu wird ein räumliches Preisgleichgewichtsmodell wie von Takayama und Judge vorgeschlagen mit hoher Abdeckung von Regionen und Politiken erstellt. Der Vorteil dieses Modelltyps gegenüber den in bisherigen Analysen verwendeten besteht in seiner Fähigkeit, die Annahme der Ursprungshomogenität (im Gegensatz zu Modellen, die auf dem Armington Ansatz basieren) mit der Möglichkeit zu kombinieren, bilaterale Handelsströme explizit abzubilden. Ein wesentlicher Nachteil ist die quasi-normative Natur des Ansatzes. Nach der Einführung wird zunächst in Kapitel zwei der Weltzuckermarkt detailliert beschrieben und von anderen Agrarmärkten abgegrenzt sowie die Anforderungen an ein Gleichgewichtsmodell des Weltzuckermarktes diskutiert. Dann wird im dritten Kapitel eine Übersicht über verschiedene in der Vergangenheit verwendete Modellansätze gegeben und deren Ergebnisse ausgewertet. Im vierten Kapitel wird ein Überblick die theoretische Entwicklung des Modellansatzes gegeben und schließlich das in der Dissertation verwendete Modell beschrieben. Das Modell umfasst 104 Zucker produzierende und 90 Zucker konsumierende Regionen. Nationale Handels- und Agrarpolitiken sowie eine Vielzahl regionaler und präferentieller Handelsabkommen sind im Modell berücksichtigt. Im zweiten Teil von Kapitel vier wird eine Analyse von vier Szenarien mit dem Modell durchgeführt. Diese umfassen eine Fortführung gegenwärtiger Politiken, ein WTO Abkommen, eine einseitige Liberalisierung des Zuckermarktes der EU sowie eine Liberalisierung der Zuckermärkte aller im Modell vertretenen Länder. Im Abschlusskapitel werden einige Kernergebnisse zusammengefasst und eine Weiterentwicklung des Ansatzes diskutiert. Hier wird insbesondere auf das Problem der Quasi-Normativität eingegangen. / The Dissertation at hand investigates the effects of different policy options on the world sugar market. A Spatial Price Equilibrium Model as suggested by Takayama and Judge is established. This model type has one considerable advantage over previously ap-plied types which is its ability to combine the assumption of homogeneous goods regardless of origin (as opposed to Armington-based models) with the possibility to model bilateral trade flows explicitly. One major drawback of the approach is that is behaves in part like a normative model. After the introductory chapter, a detailed description of the world sugar market and how it distinguishes from markets for other agricultural commodities is given. In this frame-work requirements of a valid equilibrium model of the world sugar market are discussed. In the third chapter various studies of the world sugar market based on equilibrium models are surveyed. In the chapter four the development of the approach of spatial equilibrium modeling finally the model applied in this dissertation are described The model covers 104 sugar pro-ducing and 90 sugar consuming regions. National agricultural and trade policies as well as numerous regional and preferential trade agreements are accounted for. In the second part of chapter four, four scenarios are simulated with the model. These are a reference scenario in which current policies are maintained, a WTO agreement, a unilateral liberalization of sugar policies on the part of the EU as well as a multilateral liberalization of the sugar markets of all countries. In the final chapter, some core results are summarized and further development of the applied approach especially possible solutions for the problem of quasi-normativity are dis-cussed.

Zucker

Partielle Gleichgewichtsmodelle

Räumliche Gleichgewichtsmodelle

Agrarpolitik

Sugar

Partial Equilibrium Models

Spatial Price Equilibrium Models

Agricultural Policy

630 Landwirtschaft, Veterinärmedizin

39 Landwirtschaft, Garten

ZB 85000

ddc:630

Endothelium-dependent vasomotor responses of hypertensive and type 2 diabetic rats: effects of sex, ageing, and therapeutic interventions

Graham, Drew

January 2009

Impaired endothelial vasomotor function is a hallmark of many chronic disease states, including essential hypertension and type 2 diabetes mellitus. Loss of the homeostatic role of the endothelium in large conduit arteries can contribute to the pathogenesis of cardiovascular conditions in these vessels (e.g. stroke, atherosclerosis). A fundamental understanding of mechanisms controlling endothelial function in hypertension and type 2 diabetes mellitus is required for appropriate clinical strategies targeting the cardiovascular conditions associated with these diseases. The vast majority of basic science studies examining endothelial function in animal models of hypertension and type 2 diabetes have been conducted in males. Studying endothelial function in females is imperative for determining potential sex-specific mechanisms of dysfunction and thus appropriate therapeutic strategies. Thus the global purpose of this thesis is to identify and characterize the pathways controlling impaired vasomotor function in female animal models of two chronic disease states: hypertension and type 2 diabetes mellitus. Chapters 2 and 3 of this thesis examine sex differences in endothelium-dependent vasorelaxation (EDR) and vasocontraction (EDC) of aortic segments isolated from male and female spontaneously hypertensive rats (SHR), a model of essential hypertension, as the animals age between 16 and 30 wk old. All endothelial vasomotor data presented in the Abstract are peak responses to 10⁻⁵ M acetylcholine. Endothelial vasomotor impairment is represented by lower EDR or by higher EDC. These present data confirmed well-established findings from the literature that 16 wk old male SHR exhibit endothelial vasomotor impairments (EDR: 77±4 %; EDC: 76±7 %) compared to normotensive Wistar-Kyoto (WKY; EDR: 89±6 %; EDC: 59±8 %; p<0.05) controls, and that this impairment worsens with ageing in 30 wk male SHR (EDR: 63±2 %; EDC: 91±3 %; p<0.05). The observation that EDR was reduced in 30 wk female SHR (EDR: 76±4 %) compared to 16 wk counterparts (EDR: 101±2 %; p<0.05), however, was novel and interesting, as there were previously no reports of vasomotor responses in female SHR older than 19 wk. Moreover, the blunted EDR response of 30 wk female SHR approached the level of impairment exhibited by 30 wk male SHR (but was still slightly greater in females; p<0.05). The limited sex difference of the EDR within 30 wk SHR (males –13 % vs. females; p<0.05) contrasted that of 16 wk SHR (males –24 % vs. females; p<0.05), when the robust and unimpaired relaxation displayed by females was much greater than the significantly blunted response of males. Interestingly, endothelium-dependent contractions in quiescent rings were moderate and similar between 16 wk (EDC: 50±4 %) and 30 wk female SHR (EDC: 59±7 %; p=N/S) as compared to the greater contractions of males that were exacerbated with ageing (see above; p<0.05 both sex and ageing comparison). A major role has been established for the cyclooxygenase (COX)-1-thromboxane A₂/prostaglandin (TP) receptor pathway in the impaired endothelial vasomotor function of male SHR. Indeed, a similar mechanism appears to be responsible for the dysfunction observed in 30 wk female SHR in this thesis since robust endothelial function was restored in these animals with both antagonism of TP receptor (EDR: 111±2 %; EDC: 7±2 %; p<0.05) and preferential inhibition of COX-1 (EDR: 112±3 %; EDC: –5±3 %; p<0.05). In contrast, preferential inhibition of COX-2 only partially tempered endothelial impairments of 30 wk female SHR (EDR: 99±5 %; EDC: 27±3 %; p<0.05), suggesting that, similar to ageing male SHR, this isoform makes at most a secondary contribution to the dysfunction in 30 wk female SHR. Collectively, these data indicate that ageing female SHR exhibit a mechanism of endothelial impairment that is similar to that of male SHR and that is largely COX-1- and TP receptor-dependent. Chapter 4 examines the ability of chronic dietary administration of the n-3 polyunsaturated fatty acid (PUFA), docosahexaenoic acid (DHA, 22:6 n-3), to ameliorate endothelial vasomotor function in adult male SHR with established hypertension. The impaired endothelial function of aortic segments isolated from adult male SHR (EDR: 48±6 %) was not improved following 10–12 wk of DHA feeding (EDR: 45±5 %; p=N/S). This finding was unexpected since it has been shown in the literature that feeding other n-3 PUFAs improves vasomotor responses in younger SHR, in which hypertension and its associated consequences are still developing. This is the first report of the effects of n-3 PUFA on endothelial vasomotor responses in adult SHR with established hypertension. These data suggest that dietary DHA do not improve vasomotor function in adult SHR. Chapter 5 examines α₁ adrenergic contraction and EDR of aortic segments isolated from 14 wk old female Zucker diabetic fatty rats (ZDF), a genetic model of high fat diet-induced obesity and type 2 diabetes, and lean non-diabetic female Zucker Lean rats. Additionally, some ZDF received an 8 wk administration of anti-diabetic metformin drug therapy, aerobic exercise training, or a combination of the two. Maximal α₁ adrenergic contractions were over 2-fold higher in high fat-fed ZDF (1.69±0.16 g) compared to Lean (0.71±0.13 g; p<0.05). This elevation in ZDF was abolished by exercise training alone (1.02±0.17 g; p<0.05) but was not altered by metformin (1.56±0.19 g; p=N/S). In contrast to the severely impaired endothelial vasomotor function reported in male ZDF in the literature, robust EDR was observed in female ZDF (72±7 %) that was similar to Lean (75±6 %; p=N/S) and that was unaltered by exercise training (76±5 %; p=N/S) or metformin (76±6 %; p=N/S). These results indicate that enhanced α₁ adrenergic contraction is a mechanism of altered vasomotor function in female type 2 diabetic ZDF rats and that it could possibly be addressed by a chronic exercise training intervention. The main novelty of the thesis is the extension of the current understanding of endothelial vasomotor function to hypertensive and type 2 diabetic females. The knowledge gained from examining mechanisms involved in endothelial impairments in ageing hypertensive females and from testing the therapeutic potential of currently used anti-diabetic interventions in the type 2 diabetic female vasculature has interesting potential application. This basic scientific information could help direct clinical therapeutic strategies to target population-specific mechanisms of dysfunction. Understanding female sex-specific endothelial behaviour in patient populations is important for describing cardiovascular complications, defining mechanisms, and applying appropriate therapeutic targets. Findings from this thesis indicate a sex-dependence of the total divergence of endothelial function (e.g. female type 2 diabetic rats vs. male counterparts in the literature) and of the interaction of disease variables (e.g. age) and endothelial vasomotor responses.

vascular

nitric oxide

cyclooxygenase

prostanoid

thromboxane/prostaglandin receptor

type 2 diabetes

hypertension

Zucker diabetic fatty rat

spontaneously hypertensive rat

therapy

endothelium-derived contracting factor

acetylcholine

n-3 polyunsaturated fatty acid

fish oil

blood pressure

exercise training

anti-diabetic drug

metformin

Kinesiology

Endothelium-dependent vasomotor responses of hypertensive and type 2 diabetic rats: effects of sex, ageing, and therapeutic interventions

Graham, Drew

January 2009

Impaired endothelial vasomotor function is a hallmark of many chronic disease states, including essential hypertension and type 2 diabetes mellitus. Loss of the homeostatic role of the endothelium in large conduit arteries can contribute to the pathogenesis of cardiovascular conditions in these vessels (e.g. stroke, atherosclerosis). A fundamental understanding of mechanisms controlling endothelial function in hypertension and type 2 diabetes mellitus is required for appropriate clinical strategies targeting the cardiovascular conditions associated with these diseases. The vast majority of basic science studies examining endothelial function in animal models of hypertension and type 2 diabetes have been conducted in males. Studying endothelial function in females is imperative for determining potential sex-specific mechanisms of dysfunction and thus appropriate therapeutic strategies. Thus the global purpose of this thesis is to identify and characterize the pathways controlling impaired vasomotor function in female animal models of two chronic disease states: hypertension and type 2 diabetes mellitus. Chapters 2 and 3 of this thesis examine sex differences in endothelium-dependent vasorelaxation (EDR) and vasocontraction (EDC) of aortic segments isolated from male and female spontaneously hypertensive rats (SHR), a model of essential hypertension, as the animals age between 16 and 30 wk old. All endothelial vasomotor data presented in the Abstract are peak responses to 10⁻⁵ M acetylcholine. Endothelial vasomotor impairment is represented by lower EDR or by higher EDC. These present data confirmed well-established findings from the literature that 16 wk old male SHR exhibit endothelial vasomotor impairments (EDR: 77±4 %; EDC: 76±7 %) compared to normotensive Wistar-Kyoto (WKY; EDR: 89±6 %; EDC: 59±8 %; p<0.05) controls, and that this impairment worsens with ageing in 30 wk male SHR (EDR: 63±2 %; EDC: 91±3 %; p<0.05). The observation that EDR was reduced in 30 wk female SHR (EDR: 76±4 %) compared to 16 wk counterparts (EDR: 101±2 %; p<0.05), however, was novel and interesting, as there were previously no reports of vasomotor responses in female SHR older than 19 wk. Moreover, the blunted EDR response of 30 wk female SHR approached the level of impairment exhibited by 30 wk male SHR (but was still slightly greater in females; p<0.05). The limited sex difference of the EDR within 30 wk SHR (males –13 % vs. females; p<0.05) contrasted that of 16 wk SHR (males –24 % vs. females; p<0.05), when the robust and unimpaired relaxation displayed by females was much greater than the significantly blunted response of males. Interestingly, endothelium-dependent contractions in quiescent rings were moderate and similar between 16 wk (EDC: 50±4 %) and 30 wk female SHR (EDC: 59±7 %; p=N/S) as compared to the greater contractions of males that were exacerbated with ageing (see above; p<0.05 both sex and ageing comparison). A major role has been established for the cyclooxygenase (COX)-1-thromboxane A₂/prostaglandin (TP) receptor pathway in the impaired endothelial vasomotor function of male SHR. Indeed, a similar mechanism appears to be responsible for the dysfunction observed in 30 wk female SHR in this thesis since robust endothelial function was restored in these animals with both antagonism of TP receptor (EDR: 111±2 %; EDC: 7±2 %; p<0.05) and preferential inhibition of COX-1 (EDR: 112±3 %; EDC: –5±3 %; p<0.05). In contrast, preferential inhibition of COX-2 only partially tempered endothelial impairments of 30 wk female SHR (EDR: 99±5 %; EDC: 27±3 %; p<0.05), suggesting that, similar to ageing male SHR, this isoform makes at most a secondary contribution to the dysfunction in 30 wk female SHR. Collectively, these data indicate that ageing female SHR exhibit a mechanism of endothelial impairment that is similar to that of male SHR and that is largely COX-1- and TP receptor-dependent. Chapter 4 examines the ability of chronic dietary administration of the n-3 polyunsaturated fatty acid (PUFA), docosahexaenoic acid (DHA, 22:6 n-3), to ameliorate endothelial vasomotor function in adult male SHR with established hypertension. The impaired endothelial function of aortic segments isolated from adult male SHR (EDR: 48±6 %) was not improved following 10–12 wk of DHA feeding (EDR: 45±5 %; p=N/S). This finding was unexpected since it has been shown in the literature that feeding other n-3 PUFAs improves vasomotor responses in younger SHR, in which hypertension and its associated consequences are still developing. This is the first report of the effects of n-3 PUFA on endothelial vasomotor responses in adult SHR with established hypertension. These data suggest that dietary DHA do not improve vasomotor function in adult SHR. Chapter 5 examines α₁ adrenergic contraction and EDR of aortic segments isolated from 14 wk old female Zucker diabetic fatty rats (ZDF), a genetic model of high fat diet-induced obesity and type 2 diabetes, and lean non-diabetic female Zucker Lean rats. Additionally, some ZDF received an 8 wk administration of anti-diabetic metformin drug therapy, aerobic exercise training, or a combination of the two. Maximal α₁ adrenergic contractions were over 2-fold higher in high fat-fed ZDF (1.69±0.16 g) compared to Lean (0.71±0.13 g; p<0.05). This elevation in ZDF was abolished by exercise training alone (1.02±0.17 g; p<0.05) but was not altered by metformin (1.56±0.19 g; p=N/S). In contrast to the severely impaired endothelial vasomotor function reported in male ZDF in the literature, robust EDR was observed in female ZDF (72±7 %) that was similar to Lean (75±6 %; p=N/S) and that was unaltered by exercise training (76±5 %; p=N/S) or metformin (76±6 %; p=N/S). These results indicate that enhanced α₁ adrenergic contraction is a mechanism of altered vasomotor function in female type 2 diabetic ZDF rats and that it could possibly be addressed by a chronic exercise training intervention. The main novelty of the thesis is the extension of the current understanding of endothelial vasomotor function to hypertensive and type 2 diabetic females. The knowledge gained from examining mechanisms involved in endothelial impairments in ageing hypertensive females and from testing the therapeutic potential of currently used anti-diabetic interventions in the type 2 diabetic female vasculature has interesting potential application. This basic scientific information could help direct clinical therapeutic strategies to target population-specific mechanisms of dysfunction. Understanding female sex-specific endothelial behaviour in patient populations is important for describing cardiovascular complications, defining mechanisms, and applying appropriate therapeutic targets. Findings from this thesis indicate a sex-dependence of the total divergence of endothelial function (e.g. female type 2 diabetic rats vs. male counterparts in the literature) and of the interaction of disease variables (e.g. age) and endothelial vasomotor responses.

vascular

nitric oxide

cyclooxygenase

prostanoid

thromboxane/prostaglandin receptor

type 2 diabetes

hypertension

Zucker diabetic fatty rat

spontaneously hypertensive rat

therapy

endothelium-derived contracting factor

acetylcholine

n-3 polyunsaturated fatty acid

fish oil

blood pressure

exercise training

anti-diabetic drug

metformin

Kinesiology

Ausgewählte Eigenschaften des Sporopollenins der Kiefer

Bohne, Guido

27 February 2007

Gegenstand der Arbeit sind Zusammenhänge zwischen physikochemischen Eigenschaften und Funktionen der Exine bei Ausbreitung, Bestäubung und Befruchtung. Dabei bewährte sich der Einsatz der 3-kammrigen Sporopolleninkapseln (Zentralkapsel und Sacci) in der Permeationschromatographie. Sowohl kinetisch bedingte chromatographische Dispersion kleiner Moleküle als auch Konzentrationsänderungen von Zuckern und Dextranmolekülen im Medium wurden zur Bestimmung von Permeabilitätskoeffizienten der Nexine genutzt. Die Wasserabsorptionskapazität von Exinefragmenten und die hydraulische Leitfähigkeit der Nexine wurden anhand von Konzentrationsänderungen ausgeschlossener Dextranmoleküle ermittelt. Das Tectum der saccalen Sexine ist eine Mikrofiltermembran mit scharfer Trenngrenze im Submikrometerbereich; daher werden an den Sacci nur Hydrokolloide mit Stokes''schen Radius über 100 nm (z.B. aus nativem Dextran) ausgeschlossen. Die Nexine ist eine nicht-ideale Umkehrosmose-Membran, die in Zucker- und Salzlösungen hohe Reflexionskoeffizienten zeigt; zusätzlich besitzt sie wenige große Poren, die den Austausch von Zuckern und selbst kleinen Polymermolekülen ermöglichen. Die hydraulische Leitfähigkeit der Nexine liegt im Größenbereich derjenigen von Plasmamembranen (0,39-0,48 µm s-1 MPa-1); die Ergebnisse zeigen, dass die Exine weder die Nährstoffaufnahme des Sporoplasten aus der lokulären Flüssigkeit noch dessen rasche Rehydratation in der Mikropyle behindert. Die Einfaltungen der distalen Nexine (oberhalb der Sacci) und die Omega-Faltung der Exine zwischen den Sacci (Leptom) bieten beim Quellvorgang Schutz vor zu schneller Flächenausdehnung der Plasmamembran. Der Corpus kann mit konzentrierten Elektrolytlösungen beladen werden. Beim anschließenden osmotischen Schwellen in Wasser reißt die Exine, und der Sporoplast wird mit anhaftender Intine ausgeschleudert. Wasser und andere polare Flüssigkeiten adhärieren stärker als hydrophobe Flüssigkeiten an Sporopollenin. Die Sporopolleninmatrix weist eine hohe Feststoffdichte auf, ist wenig quellfähig (0,18 mL g-1 TM) und deformationsstabil. Dies ermöglicht die Pulverbildung beim Trocknen. / Subject of this thesis are relationships between physicochemical properties and functions of the exine concerning propagation, pollination and fecundation. Here the application of the 3-chambered sporopollenin-microcapsules (central capsule and sacci) in permeation chromatography proved of value. Both the kinetically dependent dispersion of small molecules and changes in concentration of sugars and dextran molecules in the medium were analysed to determine permeability coefficients of the nexine. The water absorption capacity of exine fragments and the hydraulic conductance of the nexine were calculated by means of changes in concentrations of excluded dextran molecules. The tectum of the saccal sexine is a microfiltration membrane with a sharp cut off in the submicrometer range; thus hydrocolloids with Stokes´radii over 100 nm (e.g. from native dextran) are excluded from the sacci. The nexine is a non-ideal reverse osmosis membrane having high reflexion coefficients in sugar and salt solutions; in addition few large pores allow the exchange of sugars and even of small polymers. The hydraulic conductance of the nexine is in the range typically for plasmamembranes (0.39-0.48 µm s-1 MPa-1); the results indicate that the exine does neither obstruct the uptake of nutrients by the sporoplast from the locular fluid nor hinder the rapid rehydration in the micropyle. When rehydrating, the distal foldings of the nexine (above the sacci) and the omega-like folding of the exine between the sacci (leptom), provide protection for the plasmamembrane when its surface area has to increase too rapidly. The corpus can be loaded with a concentrated electrolyte solution. When subsequently transferred into water the exine rupture and the sporoplast along with the intact intine is ejected. Water and other polar liquids adhere stronger to sporopollenin than hydrophobic ones. The matrix of sporopollenin show a high density in its solid content, water absorption capacity is low (0.18 mL g-1 DM) and it is resistant to deformation. This enable the formation of powder while dehydrating.

Diffusion

Plasmamembran

Benetzbarkeit

Calcium

Chromatographie

Deplasmolyse

Dextran

Evans Blau

Exine

Exocytose

Größenausschluss

HETP

hydraulische Leitfähigkeit

hypo-osmotischer Schock

Intine

Kiefer

Leptom

Nexine

osmotischer Schock

Parenchymzellen

Permeabilität

Pinus sylvestris L.

Pinus nigra Arnold

Plasmoptyse

Pollen

Poren

Reflexionskoeffizient

Sexine

Sporopollenin

Ultrafilterkoeffizient

Wasserabsorption

Wasseraufnahme

Zucker

diffusion

plasma membrane

exocytosis

Calcium

chromatography

de-plasmolysis

dextran

Evans Blue

exine

HETP

hydraulic conductivity

hypo-osmotic shock

intine

leptom

nexine

osmotic shock

parenchyma cells

permeability

pine

Pinus nigra Arnold

Pinus sylvestris L.

plasmoptysis

pollen

pores

reflection coefficient

sexine

size exclusion

sporopollenin

sugars

ultrafilter coefficient

water absorption

water uptake

wettability

570 Biowissenschaften, Biologie

32 Biologie

WL 7950

WN 7400

ddc:570

Wood Quality, Carbon and Nitrogen Partitioning, and Gene Expression Profiling in <i>Populus</i> Exposed to Free Air CO₂ Enrichment (FACE) and N-fertilization / Auswirkungen von CO₂-angereicherter Luft im Freiland (FACE) und zusätzlicher Stickstoffdüngung auf die Holzqualität, Kohlenstoff- und Stickstoffverteilung, sowiedie Genexpression bei Pappeln

Luo, Zhibin

19 December 2005

No description available.

580 Pflanzen (Botanik)

Forest Sciences and Forest Ecology

Holzwirtschaft

Biomasse

Brennwert

Klimaveränderung

FT-IR

Genexpression

Lignin

Stickstoffdüngung

lösliche Proteine

Phenole

Zucker

Stärke

Tannine

Holzanatomie

Holzeigenschaften

Pappel

Agroforestry

Biomass

Calorific value

Carbon sequestration

Climate change

Elevated CO₂

FT-IR

Gene expression

Lignin

N-fertilization

Phenolics

Soluble proteins

Starch

Sugar

Tannins

Wood anatomy

Wood properties

<i>Populus</i>

48.99

YQE 000: Physiologie {Forstbotanik}

YQO 000: Ökologie {Forstbotanik}