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Publications at the Intitute of Plant Genetics

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Showing results 161 - 180 out of 467

2017


Schertl, P., Danne, L., & Braun, H. P. (2017). 3-Hydroxyisobutyrate Dehydrogenase Is Involved in Both, Valine and Isoleucine Degradation in Arabidopsis thaliana. Plant physiology, 175(1), 51-61. https://doi.org/10.1104/pp.17.00649, https://doi.org/10.15488/11681
Schikowsky, C., Thal, B., Braun, H. P., & Eubel, H. (2017). Sample preparation for analysis of the plant mitochondrial membrane proteome. In Plant Membrane Proteomics (pp. 163-183). (Methods in Molecular Biology; Vol. 1696). Humana Press. https://doi.org/10.1007/978-1-4939-7411-5_11
Schikowsky, C., Senkler, J., & Braun, H. P. (2017). SDH6 and SDH7 Contribute to Anchoring Succinate Dehydrogenase to the Inner Mitochondrial Membrane in Arabidopsis thaliana. Plant physiology, 173(2), 1094-1108. https://doi.org/10.1104/pp.16.01675, https://doi.org/10.15488/11682
Schroeder, R. Y., Zhu, A., Eubel, H., Dahncke, K., & Witte, C. P. (2017). The ribokinases of Arabidopsis thaliana and Saccharomyces cerevisiae are required for ribose recycling from nucleotide catabolism, which in plants is not essential to survive prolonged dark stress. New Phytologist, 217(1), 233-244. https://doi.org/10.1111/nph.14782
Schulz, D. F., Linde, M., Geike, J., Kaufmann, H., Menz, I., & Debener, T. (2017). Analyse wirtschaftlich wichtiger Merkmale in Zierpflanzen mit komplexen Genomen. In S. Plaschil (Ed.), Zweites Symposium Zierp anzenzüchtungin Quedlinburg: 13. - 14. März 2017, Proceedings (Julius-Kühn-Archiv; Vol. 457). Julius Kühn Institut, Bundesforschungsinstitut für Kulturpflanzen. https://doi.org/10.5073/jka.2017.457.010
Senkler, J., Senkler, M., & Braun, H. P. (2017). Structure and function of complex I in animals and plants: a comparative view. Physiologia plantarum, 161(1), 6-15. https://doi.org/10.15488/11654, https://doi.org/10.1111/ppl.12561
Senkler, J., Senkler, M., Eubel, H., Hildebrandt, T., Lengwenus, C., Schertl, P., Schwarzländer, M., Wagner, S., Wittig, I., & Braun, H. P. (2017). The mitochondrial complexome of Arabidopsis thaliana. Plant Journal, 89(6), 1079-1092. https://doi.org/10.1111/tpj.13448
Streubel, J., Baum, H., Grau, J., Stuttman, J., & Boch, J. (2017). Dissection of TALE-dependent gene activation reveals that they induce transcription cooperatively and in both orientations. PLoS ONE, 12(4), [e0173580]. https://doi.org/10.1371/journal.pone.0173580
Thal, B. (2017). Towards the analysis of mitochondrial physiology in nitrogen fixing root nodules. https://edocs.tib.eu/files/e01dh17/884480933.pdf
Weber, H., Koroa, G. A., Mathis, W., Delchev, D., & Marinova, G. (2017). A self-consistent Carleman linearization approach for the design of RF mixer circuits. In J. Nurmi, I. R. Nielsen, A. Alvandpour, M. Vesterbacka, J. J. Wikner, & M. Nielsen-Lonn (Eds.), 2017 IEEE Nordic Circuits and Systems Conference, NORCAS 2017: NORCHIP and International Symposium of System-on-Chip, SoC 2017, Proceedings Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/NORCHIP.2017.8124950
Weinz, D. (2017). Identifikation von Genen mit dem Potential zur Transformation von präkanzerösen Läsionen (Dysplasie) zu malignen Lebertumoren in einem transgenen Mausmodell. [Doctoral thesis, Leibniz University Hannover]. https://doi.org/10.15488/9093

2016


Amissah, J. N., Spiller, M., Oppong, A., Osei-Safo, D., Owusu-Darko, R., Debener, T., Danquah, E. Y., & Addae-Mensah, I. (2016). Genetic diversity and cryptolepine concentration of Cryptolepis sanguinolenta (Lindl). Schlt. from selected regions of Ghana. Journal of Applied Research on Medicinal and Aromatic Plants, 3(1), 34-41. https://doi.org/10.1016/j.jarmap.2015.12.005
Bagsic, I., Linde, M., & Debener, T. (2016). Genetic diversity and pathogenicity of Sphaceloma rosarum (teleomorph Elsinoë rosarum) causing spot anthracnose on roses. Plant pathology, 65(6), 978-986. https://doi.org/10.1111/ppa.12478
Becker, S., & Boch, J. (2016). TALEs spin along, but not around: TALE proteins search for target sequences along a DNA substrate in a uniquely one-dimensional and non-rotating fashion. Nature Chemical Biology, 12(10), 766-768. https://doi.org/10.1038/nchembio.2182
Cabassa-Hourton, Ć., Schertl, P., Marianne, B. J., Saadallah, K., Guivarc'h, A., Lebreton, S., Planchais, Ś., Klodmann, J., Eubel, H., Crilat, E., Lefebvre-De Vos, D., Ghelis, T., Richard, L., Abdelly, C., Carol, P., Braun, H. P., & Savouŕe, A. (2016). Proteomic and functional analysis of proline dehydrogenase 1 link proline catabolism to mitochondrial electron transport in Arabidopsis thaliana. Biochemical Journal, 473(17), 2623-2634. https://doi.org/10.1042/bcj20160314
Fromm, S. (2016). About the importance of mitochondrial complex I and associated gamma carbonic anhydrases for plant development, metabolism and the proteome. [Doctoral thesis, Leibniz University Hannover]. https://doi.org/10.15488/8676
Fromm, S., Senkler, J., Eubel, H., Peterhänsel, C., & Braun, H. P. (2016). Life without complex I: Proteome analyses of an Arabidopsis mutant lacking the mitochondrial NADH dehydrogenase complex. Journal of experimental botany, 67(10), 3079-3093. https://doi.org/10.1093/jxb/erw165
Fromm, S., Braun, H. P., & Peterhansel, C. (2016). Mitochondrial gamma carbonic anhydrases are required for complex I assembly and plant reproductive development. New Phytologist, 211(1), 194-207. https://doi.org/10.1111/nph.13886
Fromm, S., Senkler, J., Zabaleta, E., Peterhänsel, C., & Braun, H. P. (2016). The carbonic anhydrase domain of plant mitochondrial complex I. Physiologia plantarum, 157(3), 289-296. https://doi.org/10.15488/11655, https://doi.org/10.1111/ppl.12424
Grau, J., Reschke, M., Erkes, A., Streubel, J., Morgan, R. D., Wilson, G. G., Koebnik, R., & Boch, J. (2016). AnnoTALE: bioinformatics tools for identification, annotation, and nomenclature of TALEs from Xanthomonas genomic sequences. Scientific Reports, 6, [21077]. https://doi.org/10.1038/srep21077