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Transcription factors control

Fe2+ Reverse citric acid cycle C02 incorporation Signalling transcription factors Control of protein synthesis (deformylation) Light capture... [Pg.231]

Vom Endt, D., Kijne, J.W., and Memelink, J., Transcription factors controlling plant secondary metabolism what regulates the regulators Phytochemistry, 61, 107, 2002. [Pg.212]

Stracke R, Ishihara H, Huep G, Barsch A, Mehrtens F, Niehaus K, Weisshaar B. 2007. Differential regulation of closely related R2R3-MYB transcription factors control flavonol accumulation in different parts of the Arabidopsis thaliana seedling. Plant J 50 660-677. [Pg.558]

Fig. 1. Schematic overview of copper trafficking and homeostasis inside the yeast cell. The actions of Mad and Ace 1, copper-dependent metalloregulatory transcription factors, control the production of copper import [copper transporter (Ctr) and reductase (Fre)] and detoxification/sequestration [metallothionein (MT)] machineries, respectively. Three chaperone-mediated delivery pathways are shown. Atxl shuttles Cu(I) to the secretory pathway P-type ATPase Ccc2 (right). CCS delivers Cu(I) to the cytoplasmic enzyme copper-zinc superoxide dismutase (SOD) (left). Coxl7 shuttles Cu(I) to cytochrome c oxidase (CCO) in the mitochondria (bottom). Mitochondrial proteins Scol and Sco2 may also play a role in copper delivery to the CuA and CuB sites of CCO. Copper metabolism and iron metabolism are linked through the actions of Fet3, a copper-containing ferroxidase required to bring iron into the cell (lower right) (see text). Fig. 1. Schematic overview of copper trafficking and homeostasis inside the yeast cell. The actions of Mad and Ace 1, copper-dependent metalloregulatory transcription factors, control the production of copper import [copper transporter (Ctr) and reductase (Fre)] and detoxification/sequestration [metallothionein (MT)] machineries, respectively. Three chaperone-mediated delivery pathways are shown. Atxl shuttles Cu(I) to the secretory pathway P-type ATPase Ccc2 (right). CCS delivers Cu(I) to the cytoplasmic enzyme copper-zinc superoxide dismutase (SOD) (left). Coxl7 shuttles Cu(I) to cytochrome c oxidase (CCO) in the mitochondria (bottom). Mitochondrial proteins Scol and Sco2 may also play a role in copper delivery to the CuA and CuB sites of CCO. Copper metabolism and iron metabolism are linked through the actions of Fet3, a copper-containing ferroxidase required to bring iron into the cell (lower right) (see text).
In the next chapter, we shall see how signal-responsive transcription factors control gene transcription. Moreover, we shall see in Chapter 11 that lipophilic hormones, such as steroid hormones and retinoids, use a more direct route to the gene, because these hormones bind to diffusible cytosolic receptors that are also transcriptional activators. [Pg.169]

G., Devaux, F., and Jacq, C. (2003) Competitive promoter occupancy by two yeast paralogous transcription factors controlling the multidrug resistance phenomenon. The Journal of Biological Chemistry, 278, 52641—52650. [Pg.184]

Bocher, V., Pineda-Torra, I., Fruchart, J. C., and Staels, B. (2002). PPARs Transcription factors controlling lipid and lipoprotein metabolism. Ann NY Acad Sci 967, 7-18. [Pg.435]

MAP Kinase Regulates the Activity of Many Transcription Factors Controlling Early-Response Genes... [Pg.595]

Flox genes, which encode transcription factors, control the unique morphologic characteristics of different regions along the anteroposterior axis in most or all animals. [Pg.639]

Wacker, L, Schwarz, V., Hedgecock, E. M., and Hutter, H. (2003) zag-1, a Zn-finger homeodomain transcription factor controlling neuronal differentiation and axon outgrowth in C. elegans. Development 130, 3795-3805. [Pg.136]

Poulsen L, Andersen MR, Lantz AE,Thykaer J. Identification of a transcription factor controlling pH-dependent organic acid response in Aspergillus niger. PLoS One 2012 7 e50596. [Pg.442]

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Controlled factor

Controlling factors

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Transcriptional factor

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