IDENTIFICATION AND METABOLISM OF INDOLES IN MELOIDOGYNE INCOGNITA AND IN COTTON RESISTANT AND SUSCEPTIBLE TO MELOIDOGYNE INCOGNITA

Lewis, Stephen Albert, 1942-

January 1973

No description available.

Southern root-knot nematode.

Auxin -- Metabolism.

Cotton -- Diseases and pests.

Nematode diseases of plants.

Rodina auxinových přenašečů PIN: funkční a evoluční pohled / Rodina auxinových přenašečů PIN: funkční a evoluční pohled

Skůpa, Petr

January 2011

Growth and development of plant body is dependent on correct and effective integration of information about current deployment of its body parts, as well as on perception and transduction of inputs from environment. Multiple developmental processes within plant body are determined by specific and tightly controlled distribution of molecule with unique signaling mission within plant development - auxin. Spatial distribution of auxin is co-determined by plethora of tightly controlled processes, and the polar auxin transport plays unique role among them. PIN proteins are the plant-specific family of secondary transporters driving movement of auxin across membranes. With their frequent asymmetrical localization within cells, specific expression patterns in developing tissues and their reactiveness to external cues they secure unique, dynamic and asymmetric distribution of auxin within the plant body. This dissertation thesis is focused on characterization of the role different PIN proteins play in determining cellular auxin homeostasis and consequent formation of auxin gradients. Controlled overexpression of PIN proteins in tobacco cells showed, that PIN4 and to some extent also PIN6, function as the direct auxin efflux carriers. In the cellular auxin transport they play the role analogous to other...

An investigation into the putative functions of the tobacco Annexin Ntann12

Oukouomi Lowe, Yves

18 June 2010

Les annexines sont définies comme étant des protéines qui se lient de manière calcium-dépendante aux phospholipides membranaires chargés négativement. Elles ont été associées à différents processus biologiques tels les réponses des plantes aux stress biotiques et abiotiques. Nous avons identifié une annexine végétale, appelée Ntann12, dont l’expression est induite après infection des plantes par la bactérie Rhodococcus fascians. <p> Ntann12 possède les domaines caractéristiques des annexines et se lie aux phospholipides chargés négativement, de manière calcium-dépendante. L’expression de Ntann12 est très abondante dans les cellules différentiées des racines, où la protéine a été détectée par immunolocalisation dans le cytosol et dans le noyau. Des analyses par western blot ont montré que l’accroissement relatif de la quantité de protéines liées aux membranes est positivement corrélé à l’augmentation de la concentration en Ca2+. <p> Au niveau physiologique, l'expression de Ntann12 est induite par l’apport exogène d’auxine. Elle est contrôlée dans les racines par un signal induit par la lumière, et provenant des parties aériennes. Le transport polaire de l'auxine a été identifié comme étant le processus cellulaires nécessaires à l'expression de Ntann12 dans les racines. En outre, cette expression est réprimée par les stress salin, osmotique et hydrique. Ces résultats suggèrent que l’annexine Ntann12 est impliquée dans le métabolisme de l’auxine.<p><p>/<p><p>Annexins are defined as calcium-binding proteins, and they have been associated in plants with different biological processes such as responses to biotic and abiotic stress. Ntann12 expression is induced upon infection of tobacco plant by R. fascians. <p> Ntann12 possesses the conserved annexin repeat with the sequence for type II Ca2+-binding site and recombinant as well as native Ntann12 binds to negatively charged phospholipids in a Ca2+-dependent manner. It is mainly expressed in root differentiated cells where the protein was immunolocalized in the cytosol and in the nucleus. Ntann12 was examined by western blot in both microsomal and cytosolic fractions from tobacco roots cells, and was detected in both the cytosol and microsome. The relative increase of Ntann12 proteins associated with the microsome is coupled with an increase in Ca2+ concentration.<p> At the physiological level, Ntann12 expression is induced by exogenous application of auxin, and was found to be regulated in the root system by a light-induced signal coming from plant aerial part and polar auxin transport was identified to be the cellular process required for Ntann12 expression in root cells. Furthermore, Ntann12 expression is down-regulated by salt, osmotic and water stress. These results collectively suggest that the annexin Ntann12 is implicated in auxin metabolism. <p> / Doctorat en Sciences / info:eu-repo/semantics/nonPublished

Biologie

Sciences exactes et naturelles

Lipocortins

Auxin -- Metabolism

Annexines

Auxine -- Métabolisme

Annexin

Tobacco

Auxin

Stress

Plant development

Role auxinu u streptofytních řas / The role of auxin in streptophyte algae

Schmidt, Vojtěch

January 2021

The phytohormone auxin is an important morphogen with an essential role in the development of land plants, where mechanisms of its action are well described. However, its role in green algae is poorly understood. Land plants are part of the phylum Streptophyta together with six closely related groups of predominantly freshwater green algae (charophytes). So far, the knowledge about the evolutionary origins of auxin action mechanism is mainly based on genomic information, and much less on experimental findings. In this work, the presence of auxin, its precursor, and catabolism products were shown in representative species of charophytes with varying levels measured compounds both produced endogenously and into the culture media. Thus, we gained a comprehensive insight into the possible strategies of auxin homeostasis across the non-land plant streptophytes. Also, an effect of exogenous auxin on the cell morphology and culture growth of the desmid Closterium was investigated. Image analysis of IAA-treated cells revealed a rather pleiotropic effect on cell morphology. The culture growth was inhibited by IAA. Additionally, IAA induced malformations in cell shape, and the extent of this phenomenon across individual cultures was dependent on the culture growth status. Lastly, we optimized the method of...

Evoluce mechanismů homeostáze auxinu / The evolution of auxin homeostasis mechanisms

Skokan, Roman

January 2021

The evolution of auxin homeostasis mechanisms Ph.D. thesis Roman Skokan, 2021 Abstract The streptophyte lineage consists of land plants (embryophytes) and several groups of primarily freshwater green algae called charophytes. While the phytohormone auxin is a conserved regulator of land plant development, little has been known of the possible origins of auxin response mechanisms in charophytes. We found that one of these mechanisms, the cellular auxin efflux via the PIN family of transport proteins, is most likely a deeply conserved feature in streptophytes. Additionally, we investigated the state of conservation in the green lineage (Viridiplantae) of the gene families known to be involved in auxin transport in land plants. We revealed that some families are deeply conserved outside land plants, but not others. We also helped uncover a unique radiation within the PIN family in Charophyceae. Striving to uncover the native significance of auxin transport in charophytes, we discovered a growth response to exogenously-applied auxin in Closterium, though the effort to produce stable mutant lines in the native PIN homolog is still underway. Altogether, we brought important insights into the evolution of auxin transport and response in the streptophyte lineage, though many questions still remain.