Veröffentlichungen Christian Koch


Peter-Louis Plaumann, Christian Koch.   (2020)     The Many Questions about Mini Chromosomes in Colletotrichum spp.   Plants 2020, 9(5), 641,   doi: 10.3390/plants9050641
Plaumann PL., Schmidpeter J., Dahl M., Taher L., Koch C.   (2018)     A Dispensable Chromosome Is Required for Virulence in the Hemibiotrophic Plant Pathogen Colletotrichum higginsianum.   Frontiers in Microbiology,   doi: 10.3389/fmicb.2018.01005
Gebauer, P., Korn, M., Engelsdorf, T., Sonnewald, U., Koch, C., & VOLL, L. M.   (2017)     Sugar Accumulation in Leaves of Arabidopsis sweet11/sweet12 Double Mutants Enhances Priming of the Salicylic Acid-Mediated Defense Response.   Frontiers in Plant Science, 8, 3864.   doi: 10.3389/fpls.2017.01378
Schmidpeter J., Dahl M., Hofmann J., Koch C.   (2017)     ChMob2 binds to ChCbk1 and promotes virulence and conidiation of the fungal pathogen Colletotrichum higginsianum.   BMC Microbiology,   [accepted].   doi: 10.1186/s12866-017-0932-7
Korn M, Schmidpeter J, Dahl M, Müller S, Voll LM, Koch, C.   (2015)
A Genetic Screen for Pathogenicity Genes in the Hemibiotrophic Fungus Colletotrichum higginsianum Identifies the Plasma Membrane Proton Pump Pma2 Required for Host Penetration.
PLoS ONE 10(5): e0125960. doi:10.1371/journal.pone.0125960
O'Connell RJ, Thon MR, Hacquard S, Ver Loren van Themaat E, Amyotte SG, Kleemann J, Torres MF, Damm U, Buiate EA, Epstein L, Alkan N, Altmüller J, Alvarado-Balderrama L, Bauser CL, Becker C, Birren BW, Chen Z, Choi J, Crouch JA, Duvick JP, Farman ML, Gan P, Heiman D, Henrissat B, Howard RJ, Kabbage M, Koch C, Kubo Y, Law AD, Lebrun MH, Lee Y-H, Miyara I, Moore N, Neumann U, Panaccione DG, Panstruga R, Place M, Proctor RH, Prusky D, Rech G, Reinhardt R, Rollins JA, Rounsley S, Schardl CL, Schwartz DC, Shenoy N, Shirasu K, Sikhakolli UR, Stüber K, Sukno SA, Sweigard JA, Takano Y, Takahara H, Trail F, van der Does HC, Voll LM, Will I, Young S, Zeng Q, Zhang J, Zhou S, Dickman MB, Schulze-Lefert P, Ma L-J, Vaillancourt LJ.   (2012)
Life-style transitions in plant pathogenic Colletotrichum fungi deciphered by genome and transcriptome analyses.
Nature Genetics, 44: 1060-1065
Stephan, O., Koch, C.   (2009)
Sin3 is involved in cell size control at Start in Saccharomyces cerevisiae
FEBS J. 276, 3810 - 3824.   doi: 10.1111/j.1742-4658.2009.07095.x
Koch, C., Wollmann, P., Dahl, M. and Lottspeich, F.   (1999)
A role for Ctr9p and Paf1p in the regulation of G1 cyclin expression in yeast.
Nucleic Acids Res. 27, 2126-2134
Xu, R., Koch, C., Liu, Y., Horton, J. R., Knapp, D., Nasmyth, K., and Cheng, X.   (1997)
Crystal structure of the DNA-binding domain of Mbp1, a transcription factor important in cell cycle control of DNA synthesis. Structure 5, 349-358
Koch, C., Schleiffer, A., Ammerer, G., and Nasmyth, K. (1996)
Switching transcription on and off during the yeast cell cycle: Cln/Cdc28 kinases activate bound transcription factor SBF (Swi4/Swi6) at Start, whereas Clb/Cdc28 kinases displace it from the promoter in G2. Genes and Dev. 10, 129-141
Koch, C. and Nasmyth, K. (1994)
Cell cycle regulated transcription in yeast. Curr. Opin. Cell Biol. 6, 451-459
Moll, T., Schwob, E., Koch, C., Moore, A., Auer, H. and Nasmyth, K. (1993)
Transcription factors important for starting the cell cycle in yeast.
Philos. Trans. R. Soc. Lond. Biol. 340, 351-360
Koch, C., Moll, T., Neuberg, M., Ahorn, H. and Nasmyth, K. (1993) A role for the transcription factors Mbp1 and Swi4 in progression from G1 to S phase.
Science 261 , 1551-1557
Sockanathan, S., Moll, T., Siegmund, R., Dirick, L., Koch, C., and Nasmyth, K. (1993) Switching genes on at the Start of the yeast cell cycle. In: The pharmacology of cell differentiation. Esteve Foundation Symposium Volume, R. A. Rifkin, editor. Elsevier Science Publishers B.V.
Ninnemann, O., Koch, C. and Kahmann, R. (1992) The E.coli fis promoter is subject to stringent control and autoregulation. EMBO J. 11, 1075-1083
Koch, C., Ninnemann, O., Fuss, H. and Kahmann, R. (1991) The N-terminal part of the E.coli DNA binding protein FIS is essential for stimulating site-specific DNA inversion but is not required for specific DNA binding.
Nucl. Acids Res. 19, 5915-5922
D. Kostrewa, J. Granzin, C. Koch, H.-W. Choe, S. Raghunathan, W. Wolf,
J. Labahn, R. Kahmann and W. Saenger
(1991) Three-dimensional structure of the E.coli DNA-binding protein FIS. Nature 349, 178-180
Choe, H.-W., Labahn, J., Itoh, S., Koch, C., Kahmann, R., and Saenger, W. (1989) Crystallization of the DNA-binding Escherichia coli protein FIS.
J. Mol. Biol. 208, 209-210
Betermier,M., Lefrere,V., Koch,C., Alazard, R., and Chandler, M. (1989)
The Escherichia coli protein FIS: specific binding to the ends of phage Mu DNA and modulation of phage growth. Molec. Microbiol. 3, 459-468
Koch, C., Vandekerkhove, J., and Kahmann, R. (1988) Escherichia coli host factor for DNA inversion: cloning and characterization of the fis gene.
Proc. Natl. Acad. Sci. USA 85, 4237-4241
Koch, C., Mertens, G., Rudt, F., Kahmann, R., Plasterk, R.H.A., van de Putte, P., Sandulache, R. and Kamp, D. (1987) The invertible G segment. In: phage Mu. Symonds, N., Toussaint, A., van de Putte, P. and Howe, M.M. (eds.).
Cold Spring Harbor, NY; Cold Spring Harbor Laboratory, 75-91