Dr. Elisabeth Beate Truernit

Aktuelle Anstellung

Dozentin

Forschung

Entwicklung und Funktion des Phloems

Publikationen

Truernit E. (2017) Plant physiology: Unveiling the dark side of phloem translocation. Curr Biol., 27, R348-350. [externe Seite Link]

Coiro M., Truernit E. (2017) Xylem Characterization Using Improved Pseudo-Schiff Propidium Iodide Staining of Whole Mount Samples and Confocal Laser-Scanning Microscopy. In: Methods in Molecular Biology: Xylem (ISBN 978-1-4939-6720-9), 127-132. [externe Seite Link]

Müller B., Fastner A., Karmann J., Mansch V., Hoffmann T., Schwab W., Suter-Grotemeyer M., Rentsch D., Truernit E., Ladewig F., Bleckmann A., Dresselhaus T., Hammes U.Z. (2015) Amino Acid Export in Developing Arabidopsis Seeds Depends on UmamiT Facilitators. Current Biology, 25, 3126-3131. [externe Seite Link]

Barone Lumaga M., Coiro M., Truernit E., Erdei B., De Luca P. (2015) Epidermal micromorphology in Dioon: did volcanism constrain Dioon evolution? Bot. J., 179, 236-254. [externe Seite Link]

Roodbarkelari F., Du F., Truernit E., Laux T. (2015) ZLL/AGO10 maintains shoot meristem stem cells during embryogenesis by blocking ARF2-mediated auxin response. BMC Biology 13:74. [externe Seite Link]

Beeler S., Liu H.-C., Stadler M., Schreier T., Eicke S., Lue W.-L., Truernit E., Zeeman S.C., Chen J., and Kötting O. (2014) Plastidial NAD-Dependent Malate Dehydrogenase Is Critical for Embryo Development and Heterotrophic Metabolism in Arabidopsis. Plant Physiology, 164, 1175-1190.
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Truernit E. (2014) Phloem Imaging. Journal of Experimental Botany, 65, 1681-1688.
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Tucker M.R., Roodbarkelari F., Truernit E., Adamski N.A., Hinze A., Lohmüller B., Würschum T., Laux T. (2013) Accession-specific modifiers act with ZWILLE/ARGONAUTE10 to maintain shoot meristem stem cells during embryogenesis in Arabidopsis. BMC Genomics, 14:809.
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Truernit E. (2012) Shoots and buds in Arabidopsis. In: Encyclopedia of Life Sciences (ELS).
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Truernit E., Bauby H., Belcram K., Barthélémy J., Palauqui, JC. (2012) OCTOPUS, a polarly localised membrane-associated protein, regulates phloem differentiation entry in Arabidopsis thaliana. Development, 139, 1306-1315.
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Truernit E., Palauqui JC. (2009) Looking deeper: whole-mount confocal imaging of plant tissue for the accurate study of inner tissue layers. Plant Signaling & Behavior, 4, 151-152.
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Truernit E., Haseloff J. (2008) A simple way to identify non-viable cells within living plant tissue using confocal microscopy. Plant Methods, 4, 15.
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Truernit E., Bauby H., Dubreucq B., Grandjean O., Runions J., Barthélémy J., Palauqui JC. (2008) High-resolution whole-mount imaging of three-dimensional tissue organization and gene expression enables the study of phloem development and structure in Arabidopsis. Plant Cell, 20, 1494-1503.
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Truernit E., Haseloff J. (2008) Arabidopsis thaliana outer ovule integument morphogenesis: Ectopic expression of KNAT1 reveals a compensation mechanism. BMC Plant Biol., 8, 35.
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Ragni L., Truernit E., Pautot V. (2007) KNOXing on the BELL: TALE homeobox genes and meristem activity. Int J Plant Dev Biol., 1, 42-48.
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Truernit E., Hibberd J. (2007) Immunogenic tagging of chloroplasts allows their isolation from defined cell types. Plant J., 50, 926-932.
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Truernit E., Haseloff J. (2007) A role for KNAT class II genes in root development. Plant Signaling & Behavior, 2, 10-12.
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Bauby H., Divol F., Truernit E., Grandjean O., Palauqui JC. (2007) Protophloem differentiation in early Arabidopsis thaliana development. Plant Cell Physiol., 48, 97-109.
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Truernit E., Siemering KR., Hodge S., Grbic V., Haseloff J. (2006) A map of KNAT gene expression in the Arabidopsis root. Plant Mol Biol., 60, 1-20.
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Haseloff J., Hodge S., Kurup S., Laplaze L., Runions J,. Truernit E. (2001) 3D visualization of cellular organization during Arabidopsis meristem development. Int J Dev Biol., 45: S27.
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Truernit E. (2001) Plant physiology: The importance of sucrose transporters. Curr Biol., 11, R169-71.
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Meyer S., Melzer M., Truernit E., Hümmer C., Besenbeck R., Stadler R., Sauer N. (2000) AtSUC3, a gene encoding a new Arabidopsis sucrose transporter, is expressed in cells adjacent to the vascular tissue and in a carpel cell layer. Plant J., 24, 869-82.
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Büttner M., Truernit E., Baier K., Scholz-Starke J., Sontheim M., Lauterbach C., Huss VAR., Sauer N. (2000) AtSTP3, a green leaf-specific, low affinity monosaccharide-H+ symporter of Arabidopsis thaliana. Plant Cell Environ., 23, 175-184.
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Stadler R.,Truernit E., Gahrtz M., Sauer N. (1999) The AtSUC1 sucrose carrier may represent the osmotic driving force for anther dehiscence and pollen tube growth in Arabidopsis. Plant J., 19, 269-78.
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Truernit E., Stadler R., Baier K., Sauer N. (1999) A male gametophyte-specific monosaccharide transporter in Arabidopsis. Plant J., 17, 191-201.
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Imlau A.,Truernit E., Sauer N. (1999) Cell-to-cell and long-distance trafficking of the green fluorescent protein in the phloem and symplastic unloading of the protein into sink tissues. Plant Cell, 11, 309-22.
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Truernit E., Schmid J., Epple P., Illig J., Sauer N. (1996) The sink-specific and stress-regulated Arabidopsis STP4 gene: enhanced expression of a gene encoding a monosaccharide transporter by wounding, elicitors, and pathogen challenge. Plant Cell, 8, 2169-82.
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Truernit E., Sauer N. (1995) The promoter of the Arabidopsis thaliana SUC2 sucrose-H+ symporter gene directs expression of beta-glucuronidase to the phloem: evidence for phloem loading and unloading by SUC2. Planta, 196, 564-70.
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Sauer N., Baier K., Gahrtz M., Stadler R., Stolz J., Truernit E. (1995) Sugar transport across the plasma membranes of higher plants. Plant Mol Biol., 26, 1671-9.
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