3 resultados para Tradescantia pallida

em Deakin Research Online - Australia


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The idea that plant development and physiological responses to the environment are governed largely by the five classical hormones is being superseded by the view that a much larger range of very different molecules also have such functions in plants. Recent evidence suggests that natriuretic peptides (NPs) known to function in vertebrates as regulators of salt and water balance may also play this role in plants. This thesis adds experimental results obtained in vitro and in situ that contribute to further establishing NPs as novel endogenous regulators in plants.

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In this study, both physiological and cellular effects are elicited by natriuretic peptides (NPs), a novel type of plant hormone. It was found that rat ANP (rANP) influenced stomatal opening movement in Tradescantia sp., where a significant increase in stomatal opening was observed in the presence of 1 µM rANP. Furthermore, this effect is mediated by cGMP, a (putative) second messenger of NPs. Two inhibitors of guanylyl cyclase, LY 83583 and methylene blue, inhibited rANP-induced stomatal opening. In contrast, stomatal opening is induced in a concentration dependent manner by the cell permeant cGMP analogue 8-Br-cGMP. In addition it was found, that like in animals, the secondary structure of rANP is essential for rANP responses. Linearised rANP is biologically inactive. Since ANP elicit plant responses, an attempt was made to isolate NP analogues from plants. A protocol for partially purifying NP from plants was developed. It was found that two fractions eluted from an immunoaffinity chromatography column (0.5 M KCI eluted fraction and 0.75 M KCI eluted fraction) were biologically active. The level of cGMP in response to NPs was also tested. It is suggested that the receptor of NP is specific since only 0.75 M KCI eluted fractions increased cGMP levels in Zea mays root stele tissue. rANP did not elicit an effect on cGMP levels in this tissue and LY 83583 did not affect this response. It is therefore argued that a plant specific biologically active NP system is present in the stele and it is predicted that NPs modulate solute movement in this tissue. NPs also influence K+, Na+ and H+ fluxes in Zea mays root stele. Increase in both K+ and Na+ uptake were observed after 30 min., while H+ flux shifted immediately toward influx in the presence of both 0.5 and 0.75 KCI eluted fractions. Finally, a model is proposed for the effect of NPs on solute movement and its signalling system in plants.

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The potato cyst nematodes (PCN), Globodera rostochiensis (Woll.) and G. pallida (Stone), are major pests of ware and seed potato (Solanum tuberosum L.) crops worldwide and severely impact the movement of potatoes around the globe through quarantine restrictions. In Australia, only G. rostochiensis has been discovered, on four separate occasions between 1986 and 2008. The infested areas are the subject of strict regulation and quarantine procedures and while they are considered to be contained, managing nematode populations remains a priority. This study has identified the G. rostochiensis Ro1 resistance-status of potato cultivars currently grown by Australian potato growers, and new cultivars emerging from the Australian Potato Breeding Program. Resistance was assessed by a simple and robust procedure carried out in a purpose-built quarantine facility. Of the 24 potato cultivars grown in the affected Koo Wee Rup district in 2004, 10 were resistant to nematode infestation, including the locally important cultivar Atlantic. Other cultivars important to the Victorian and Australian potato industry, such as Kennebec, Desiree, Sebago and Coliban, were classified as susceptible. Importantly, this study provided evidence that the Koo Wee Rup PCN population was able to complete its lifecycle on the native plant species, S. aviculare (kangaroo apple), potentially acting as an alternate host and spreading PCN among potato crops.