maka4014

Dr. Mario Kallenbach

   
   Department of Molecular Ecology
 Phone:+49 (0)3641 57 1118Max Planck Institute for Chemical Ecology
 Fax:+49 (0)3641 57 1102Hans-Knöll-Straße 8
  emailD-07745 Jena

  Research   Theses   CV   Publications   Presentations   IMPRS     to staff list 
2014
1Kallenbach, M., Oh, Y., Eilers, E. J., Veit, D., Baldwin, I. T., Schuman, M. (2014). A robust, simple, high-throughput technique for time-resolved plant volatile analysis in field experiments. The Plant Journal, 78, 1060-1072. doi:10.1111/tpj.12523. [ITB461] pubman
2Schuck, S., Kallenbach, M., Baldwin, I. T., Bonaventure, G. (2014). The Nicotiana attenuata GLA1 lipase controls the accumulation of Phytophthora parasitica-induced oxylipins and defensive secondary metabolites. Plant, Cell and Environment, 37, 1703-1715. doi:10.1111/pce.12281. [ITB455] pubman
2013
1Allmann, S., Späthe, A., Bisch-Knaden, S., Kallenbach, M., Reinecke, A., Sachse, S., Baldwin, I. T., Hansson, B. S. (2013). Feeding-induced rearrangement of green leaf volatiles reduces moth oviposition. eLife, 2013(2): e00421. doi:10.7554/eLife.00421.001. [HAN186] OPEN ACCESS gold pubman
2Gaquerel, E., Stitz, M., Kallenbach, M., Baldwin, I. T. (2013). Jasmonate signaling in the field, Part I: Elicited changes in jasmonate pools of transgenic Nicotiana attenuata populations. In A. Goossens, L. Pauwels (Eds.), Jasmonate Signaling: Methods and Protocols (pp. 83-95). New York: Humana Press. [ITB414] pubman
3Gaquerel, E., Stitz, M., Kallenbach, M., Baldwin, I. T. (2013). Jasmonate signaling in the field, Part II: Insect-guided characterization of genetic variations in jasmonate-dependent defenses of transgenic and natural Nicotiana attenuata populations. In A. Goossens, L. Pauwels (Eds.), Jasmonate Signaling: Methods and Protocols. Berlin: Springer. [ITB415] pubman
4Machado, R. A. R., Ferrieri, A., Robert, C., Glauser, G., Kallenbach, M., Baldwin, I. T., Erb, M. (2013). Leaf-herbivore attack reduces carbon reserves and regrowth from the roots via jasmonate and auxin signaling. New Phytologist, 200, 1234-1246. doi:10.1111/nph.12438. [ITB432] pubman
5Weinhold, A., Kallenbach, M., Baldwin, I. T. (2013). Progressive 35S promoter methylation increases rapidly during vegetative development in transgenic Nicotiana attenuata plants. BMC Plant Biology, 13: 99. doi:10.1186/1471-2229-13-99. [ITB434] OPEN ACCESS gold pubman
2012
1Kallenbach, M., Bonaventure, G., Gilardoni, P. A., Wissgott, A., Baldwin, I. T. (2012). Empoasca leafhoppers attack wild tobacco plants in a jasmonate-dependent manner and identify jasmonate mutants in natural populations. Proceedings of the National Academy of Sciences of the United States of America, 109(24), E1548-E1557. doi:10.1073/pnas.1200363109. [ITB371] OPEN ACCESS gold pubman
2011
1Kallenbach, M., Gilardoni, P. A., Allmann, S., Baldwin, I. T., Bonaventure, G. (2011). C12 derivatives of the HPL pathway are produced by product-recycling through LOX2 1 in Nicotiana attenuata leaves. New Phytologist, 191(4), 1054-1068. [ITB321] pubman
2010
1Kallenbach, M., Alagna, F., Baldwin, I. T., Bonaventure, G. (2010). Nicotiana attenuata SIPK, WIPK, NPR1 and fatty acid-amino acid conjugates participate in the induction of JA biosynthesis by affecting early enzymatic steps in the pathway. Plant Physiology, 152, 96-106. doi:10.1104/pp.109.149013. [ITB092] OPEN ACCESS gold pubman
2van Doorn, A., Kallenbach, M., Borquez, A., Baldwin, I. T., Bonaventure, G. (2010). Rapid modification of the insect elicitor N-linolenoyl-glutamate via a lipoxygenase-mediated mechanism on Nicotiana attenuata leaves. BMC Plant Biology, 10, 164. doi:10.1186/1471-2229-10-164. [ITB294] OPEN ACCESS gold pubman
2009
1Kallenbach, M., Baldwin, I. T., Bonaventure, G. (2009). A rapid and sensitive method for the simultaneous analysis of aliphatic and polar molecules containing free carboxyl groups in plant extracts by LC-MS/MS. Plant Methods, 5, 17. doi:10.1186/1746-4811-5-17. [ITB102] OPEN ACCESS gold pubman