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Molecular mechanism of transport of plant hormone auxin into cells
Laňková, Martina ; Zažímalová, Eva (advisor) ; Stiborová, Marie (referee) ; Opatrný, Zdeněk (referee)
The non-uniform distribution of the plant growth regulator (phytohormone) auxin is known to mediate many fundamental processes in plant development. Auxin is transported through the plant body either via vascular pathways or from cell to cell by specialized polar auxin transport machinery. This machinery consists of a balanced system of passive diffusion combined with the activities of auxin influx and efflux carriers. This work is focused on the processes that are involved in the uptake of auxin into plant cells. On the basis of molecular-biological and biochemical characterization, the function as an auxin influx carrier was confirmed for PaLAX1 protein from wild cherry (Prunus avium). The sequences of isolated cDNA of the PaLAX1 gene and of its protein product are highly similar to both the cDNAs and the corresponding protein products of the AUX1/LAX-type genes, coding for putative auxin influx carriers in model plant A. thaliana. On the level of organs and single cells, we have shown that the overproduction of PaLAX1 in transgenic lines resulted in an increase of the content of native auxin indole-3-acetic acid as well as of the uptake of synthetic auxin, 2,4-dichlorophenoxyacetic acid. Further, the mechanism of action of putative auxin influx inhibitors 1-naphthoxyacetic acid (1-NOA),...
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Expresní profily vybraných genů při vyrůstání kotylárních pupenů hrachu
Psotová, Martina
The diploma thesis was aimed to monitor the expression profiles of selected genes in the growing of cotyledonary buds in pea (Pisum sativum L.). The apical stem was decapitated and 0.5% auxin paste was applied to the stump. From the treated plants cotyledonary buds were collected in intervals 0, 1, 3, 6, 12, 24, 48 and 120 hours. The biological material was analyzed for expression of genes PsDRM1, PsBRC1, PsAUX1, PsPIN1, PsYUC1. A gene expression normalization factor was calculated based on constitutive genes PsEF1-alpha, PsActin and Ps beta-tubulin. Application of auxin to the stem stump prevented the growth of cotyledonary buds. This inhibition of cotyledonary buds was accompanied by increased expression of dormancy markers PsDRM1, PsBRC1 and auxin biosynthesis gene PsYUC1 and decreased expression of the auxin transporter genes PsPIN1 and PsAUX1.
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Molecular mechanism of transport of plant hormone auxin into cells
Laňková, Martina ; Zažímalová, Eva (advisor) ; Stiborová, Marie (referee) ; Opatrný, Zdeněk (referee)
The non-uniform distribution of the plant growth regulator (phytohormone) auxin is known to mediate many fundamental processes in plant development. Auxin is transported through the plant body either via vascular pathways or from cell to cell by specialized polar auxin transport machinery. This machinery consists of a balanced system of passive diffusion combined with the activities of auxin influx and efflux carriers. This work is focused on the processes that are involved in the uptake of auxin into plant cells. On the basis of molecular-biological and biochemical characterization, the function as an auxin influx carrier was confirmed for PaLAX1 protein from wild cherry (Prunus avium). The sequences of isolated cDNA of the PaLAX1 gene and of its protein product are highly similar to both the cDNAs and the corresponding protein products of the AUX1/LAX-type genes, coding for putative auxin influx carriers in model plant A. thaliana. On the level of organs and single cells, we have shown that the overproduction of PaLAX1 in transgenic lines resulted in an increase of the content of native auxin indole-3-acetic acid as well as of the uptake of synthetic auxin, 2,4-dichlorophenoxyacetic acid. Further, the mechanism of action of putative auxin influx inhibitors 1-naphthoxyacetic acid (1-NOA),...
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