Martin Luther University Halle-Wittenberg

Innenhof des Biologicums am Weinbergcampus in Halle

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Publications

2023

Forner J, Kleinschmidt D, Meyer EH, Gremmels J, Morbitzer R, Lahaye T, Schottler MA, Bock R (2023) Targeted knockout of a conserved plant mitochondrial gene by genome editing. Nature plants: doi: 10.1038/s41477-023-01538-2

Smirnova J, Loerke J, Kleinau G, Schmidt A, Burger J, Meyer EH, Mielke T, Scheerer P, Bock R, Spahn CMT, Zoschke R (2023) Structure of the actively translating plant 80S ribosome at 2.2 A resolution. Nature plants 9: 987-1000

Röhricht H, Przybyla-Toscano J, Forner J, Boussardon C, Keech O, Rouhier N, Meyer EH (2023) Mitochondrial ferredoxin-like is essential for forming complex I-containing supercomplexes in Arabidopsis. Plant Physiol 191: 2170-2184

2022

Dai L, Wang B, Wang T, Meyer EH, Kettel V, Hoffmann N, McFarlane HE, Li S, Wu X, Picard KL, Giavalisco P, Persson S, Zhang Y (2022) The TOR complex controls ATP levels to regulate actin cytoskeleton dynamics in Arabidopsis. Proc Natl Acad Sci U S A 119: e2122969119

Meyer EH, Letts JA, Maldonado M (2022) Structural insights into the assembly and the function of the plant oxidative phosphorylation system. New Phytol 235: 1315-1329

Forner J, Kleinschmidt D, Meyer EH, Fischer A, Morbitzer R, Lahaye T, Schottler MA, Bock R (2022) Targeted introduction of heritable point mutations into the plant mitochondrial genome. Nature Plants 8: 245-256

Gao Y, Thiele W, Saleh O, Scossa F, Arabi F, Zhang H, Sampathkumar A, Kühn K, Fernie A, Bock R, Schöttler MA, Zoschke R (2022) Chloroplast translational regulation uncovers nonessential photosynthesis genes as key players in plant cold acclimation. Plant Cell, doi: 10.1093/plcell/koac056

Postel Z, Poux C, Gallina S, Varre JS, Gode C, Schmitt E, Meyer E, Van Rossum F, Touzet P (2022) Reproductive isolation among lineages of Silene nutans (Caryophyllaceae): A potential involvement of plastid-nuclear incompatibilities. Mol Phylogenet Evol 169: 107436, doi: 10.1016/j.ympev.2022.107436

Saleh O, Dwiani S, Rott J, Kühn K (2022) Nascent Transcript Sequencing for the Mapping of Promoters in Arabidopsis thaliana Mitochondria. Methods Mol Biol 2363: 279-300

2021

Kim M, Schulz V, Brings L, Schoeller T, Kühn K,  Vierling E (2021) mTERF18 and ATAD3 are required for mitochondrial  nucleoid structure and their disruption confers heat tolerance in  Arabidopsis thaliana. New Phytol 232: 2026-2042

Röhricht H, Schwartzmann J, Meyer EH (2021) Complexome profiling reveals novel insights into the composition and assembly of the mitochondrial ATP synthase of Arabidopsis thaliana. Biochim Biophys Acta Bioenerg 1862: 148425

2020

Petersen G, Anderson B, Braun HP, Meyer EH, Moller IM (2020) Mitochondria in parasitic plants. Mitochondrion 52: 173-182

Fuchs P, Rugen N, Carrie C, Elsässer M, Finkemeier I, Giese J, Hildebrandt TM, Kühn K, Maurino VG, Ruberti C, Schallenberg-Rüdinger M, Steinbeck J, Braun HP, Eubel H, Meyer EH, Müller-Schüssele SJ, Schwarzländer M (2020) Single organelle function and organization as estimated from Arabidopsis mitochondrial proteomics. Plant J 101: 420–441

2018

Meyer, E.H., Lehmann, C., Boivin, S., Brings, L., De Cauwer, I., Bock, R., Kühn, K., and Touzet, P. (2018). CMS-G from Beta vulgaris ssp. maritima is maintained in natural populations despite containing an atypical cytochrome c oxidase. Biochem J. 475, 759-773.

2017

Teubner, M., Fuss, J., Kühn, K., Krause, K., and Schmitz-Linneweber, C. (2017). The RNA recognition motif protein CP33A is a global ligand of chloroplast mRNAs and is essential for plastid biogenesis and plant development. Plant J. 89, 472-485.

2015

Romani, I., Manavski, N., Morosetti, A., Tadini, L., Maier, S., Kühn, K., Ruwe, H., Schmitz-Linneweber, C., Wanner, G., Leister, D., and Kleine, T. (2015). A Member of the Arabidopsis Mitochondrial Transcription Termination Factor Family Is Required for Maturation of Chloroplast Transfer RNAIle(GAU). Plant Physiol 169, 627-646.

Kühn, K., Obata, T., Feher, K., Bock, R., Fernie, A.R., and Meyer, E.H. (2015). Complete mitochondrial complex I deficiency induces an upregulation of respiratory fluxes that is abolished by traces of functional complex I. Plant Physiol 168, 1537-1549.

Gualberto, J.M., Le Ret, M., Beator B., and Kühn, K. (2015). The RAD52-like protein ODB1 is required for the efficient excision of two mitochondrial introns spliced via first-step hydrolysis. Nucleic Acids Res 43, 6500-6510.

Binder, S., and Kühn, K. (2015). Determining mitochondrial transcript termini for the study of transcription start sites and transcript 5′ end maturation. Methods Mol Biol 1305, 13-30.

Kühn, K. (2015). Mitochondrial run-on transcription assay using biotin labeling. Methods Mol Biol 1305, 31-44.

Kühn, K., Yin, G., Duncan, O., Law, S.R., Kubiszewski-Jakubiak, S., Kaur, P., Meyer, E., Wang, Y., Colas des Francs-Small, C., Giraud, E., Narsai, R., and Whelan, J. (2015). Decreasing electron flux through the cytochrome and/or alternative respiratory pathways triggers common and distinct cellular responses dependent on growth conditions. Plant Physiol 167, 228-250.

2014

Gualberto, J.M., and Kühn, K. (2014). DNA-binding proteins in plant mitochondria: Implications for transcription. Mitochondrion 19 Pt B, 323-328.

Braun, H.P., Binder, S., Brennicke, A., Eubel, H., Fernie, A.R., Finkemeier, I., Klodmann, J., König, A.C., Kühn, K., Meyer, E., Obata, T., Schwarzländer, M., Takenaka, M., and Zehrmann, A. (2014). The life of plant mitochondrial complex I. Mitochondrion 19 Pt B, 295-313.

2012

Kühn, K., and Gualberto, J.M. (2012). Recombination in the stability, repair and evolution of the mitochondrial genome. In Mitochondrial Genome Evolution, L. Maréchal-Drouard, ed (London: Academic Press Ltd-Elsevier Science Ltd), pp. 215-252.

Janicka, S., Kühn, K., Le Ret, M., Bonnard, G., Imbault, P., Augustyniak, H., and Gualberto, J.M. (2012). A RAD52-like single-stranded DNA binding protein affects mitochondrial DNA repair by recombination. Plant J 72, 423-435.

Miller-Messmer, M., Kühn, K., Bichara, M., Le Ret, M., Imbault, P., and Gualberto, J. (2012). RECA-dependent DNA repair results in increased heteroplasmy of the Arabidopsis mitochondrial genome. Plant Physiol 159, 211-226.

Zhu, Q., Dugardeyn, J., Zhang, C., Takenaka, M., Kühn, K., Craddock, C., Smalle, J., Karampelias, M., Denecke, J., Peters, J., Gerats, T., Brennicke, A., Eastmond, P., Meyer, E.H., and Van Der Straeten, D. (2012). SLO2, a mitochondrial pentatricopeptide repeat protein affecting several RNA editing sites, is required for energy metabolism. Plant J 71, 836-849.

2011 and earlier

Kühn, K., Carrie, C., Giraud, E., Wang, Y., Meyer, E.H., Narsai, R., Colas des Francs-Small, C., Zhang, B., Murcha, M.W., and Whelan, J. (2011). The RCC1 family protein RUG3 is required for splicing of nad2 and complex I biogenesis in mitochondria of Arabidopsis thaliana. Plant J 67, 1067-1080.

Richter, U., Kühn, K., Okada, S., Brennicke, A., Weihe, A., and Börner, T. (2010). A mitochondrial rRNA dimethyladenosine methyltransferase in Arabidopsis. Plant J 61, 558-569.

Kühn, K., Richter, U., Meyer, E.H., Delannoy, E., Falcon de Longevialle, A., O'Toole, N., Börner, T., Millar, A.H., Small, I.D., and Whelan, J. (2009). Phage-type RNA polymerase RPOTmp performs gene-specific transcription in mitochondria of Arabidopsis thaliana. Plant Cell 21, 2762-2779.

Carrie, C., Kühn, K., Murcha, M.W., Duncan, O., Small, I.D., O'Toole, N., and Whelan, J. (2009). Approaches to defining dual-targeted proteins in Arabidopsis. Plant J 57, 1128-1139.

Carrie, C., Murcha, M.W., Kuehn, K., Duncan, O., Barthet, M., Smith, P.M., Eubel, H., Meyer, E., Day, D.A., Millar, A.H., and Whelan, J. (2008). Type II NAD(P)H dehydrogenases are targeted to mitochondria and chloroplasts or peroxisomes in Arabidopsis thaliana. FEBS Lett 582, 3073-3079.

Kühn, K., Bohne, A.V., Liere, K., Weihe, A., and Börner, T. (2007). Arabidopsis phage-type RNA polymerases: accurate in vitro transcription of organellar genes. Plant Cell 19, 959-971.

Holec, S., Lange, H., Kühn, K., Alioua, M., Börner, T., and Gagliardi, D. (2006). Relaxed transcription in Arabidopsis mitochondria is counterbalanced by RNA stability control mediated by polyadenylation and polynucleotide phosphorylase. Mol Cell Biol 26, 2869-2876.

Kühn, K., Weihe, A., and Börner, T. (2005). Multiple promoters are a common feature of mitochondrial genes in Arabidopsis. Nucleic Acids Res 33, 337-346.

Morais, F., Kühn, K., Stewart, D.H., Barber, J., Brudvig, G.W., and Nixon, P.J. (2001). Photosynthetic water oxidation in cytochrome b(559) mutants containing a disrupted heme-binding pocket. J Biol Chem 276, 31986-31993.

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