Items where Author is "Mäser, P."
Number of items: 15. 2017Dawidowski, M. and Emmanouilidis, L. and Kalel, V. C. and Tripsianes, K. and Schorpp, K. and Hadian, K. and Kaiser, M. and Mäser, P. and Kolonko, M. and Tanghe, S. and Rodriguez, A. and Schliebs, W. and Erdmann, R. and Sattler, M. and Popowicz, G. M.. (2017) Inhibitors of PEX14 disrupt protein import into glycosomes and kill Trypanosoma parasites. Science, 355 (6332). pp. 1416-1420. Seebacher, W. and Belaj, F. and Faist, J. and Saf, R. and Bucar, F. and Turek, I. and Branter, A. and Alajlani, M. and Kaiser, M. and Mäser, P. and Weis, R.. (2017) Synthesis of new pyrido-benzodiazepine salts and their antimicrobial activities. Monatshefte für Chemie, 148 (2). pp. 263-274. Mohsin, N. U. A. and Seebacher, W. and Faist, J. and Hochegger, P. and Kaiser, M. and Mäser, P. and Saf, R. and Weis, R.. (2017) The antiplasmodial and antitrypanosomal activities of novel piperazine derivatives of 3-azabicyclo[3.2.2]nonanes. Monatshefte für Chemie, 149 (1). pp. 99-109. 2013Ali, J. A. M. and Creek, D. J. and Burgess, K. and Allison, H. C. and Field, M. C. and Mäser, P. and de Koning, H. P.. (2013) Pyrimidine salvage in Trypanosoma brucei bloodstream forms and the trypanocidal action of halogenated pyrimidines. Molecular pharmacology : an international journal, Vol. 83, H. 2. pp. 439-453. 2012Mäser, P. and Wittlin, S. and Rottmann, M. and Wenzler, T. and Kaiser, M. and Brun, R.. (2012) Antiparasitic agents : new drugs on the horizon. Current opinion in pharmacology, Vol. 12, H. 5. pp. 562-566. Godel, C. and Kumar, S. and Koutsovoulos, G. and Ludin, P. and Nilsson, D. and Comandatore, F. and Wrobel, N. and Thompson, M. and Schmid, C. D. and Goto, S. and Bringaud, F. and Wolstenholme, A. and Bandi, C. and Epe, C. and Kaminsky, R. and Blaxter, M. and Mäser, P.. (2012) The genome of the heartworm, Dirofilaria immitis, reveals drug and vaccine targets. The FASEB Journal : official publication of the Federation of American Societies for Experimental Biology, Vol. 26, H. 11. pp. 4650-4661. Gonzalez-Salgado, A. and Steinmann, M. E. and Greganova, E. and Rauch, M. and Mäser, P. and Sigel, E. and Bütikofer, P.. (2012) myo-inositol uptake is essential for bulk inositol phospholipid but not glycosylphosphatidylinositol synthesis in Trypanosoma brucei. Journal of biological chemistry, Vol. 287, H. 16. pp. 13313-13323. 2011Ludin, P. and Nilsson, D. and Mäser, P.. (2011) Genome-wide identification of molecular mimicry candidates in parasites. PLoS one, 6 (3). e17546. Lamprea-Burgunder, E. and Ludin, P. and Mäser, P.. (2011) Species-specific typing of DNA based on palindrome frequency patterns. DNA research, 18 (2). pp. 117-124. Teka, I. A. and Kazibwe, A. J. N. and El-Sabbagh N., and Al-Salabi M. I., and Ward, C. P. and Eze, A. A. and Munday, J. C. and Mäser, P. and Matovu, E. and Barrett, M. P. and de Koning H. P., . (2011) The diamidine diminazene aceturate is a substrate for the high-affinity pentamidine transporter: implications for the development of high resistance levels in trypanosomes. Molecular pharmacology : an international journal, Vol. 80, H. 1. pp. 110-116. 2010Mosimann, M. and Goshima, S. and Wenzler, T. and Luscher, A. and Uozumi, N. and Mäser, P.. (2010) A Trk/HKT-type K+ transporter from Trypanosoma brucei. Eukaryotic Cell, Vol. 9, H. 4. pp. 539-546. Nerima, B. and Nilsson, D. and Mäser, P.. (2010) Comparative genomics of metabolic networks of free-living and parasitic eukaryotes. BMC Genomics, Vol. 11 , 217. Rufener, L. and Baur, R. and Kaminsky, R. and Mäser, P. and Sigel, E.. (2010) Monepantel allosterically activates DEG-3/DES-2 channels of the gastrointestinal nematode Haemonchus contortus. Molecular pharmacology : an international journal, Vol. 78, H. 5. pp. 895-902. Rufener, L. and Keiser, J. and Kaminsky, R. and Mäser, P. and Nilsson, D.. (2010) Phylogenomics of ligand-gated ion channels predicts monepantel effect. PLoS Pathogens, Vol. 6, H. 9 , e1001091. 2009Kuettel, S. and Mosimann, M. and Mäser, P. and Kaiser, M. and Brun, R. and Scapozza, L. and Perozzo, R.. (2009) Adenosine kinase of T. b. Rhodesiense identified as the putative target of 4-[5-(4-phenoxyphenyl)-2H-pyrazol-3-yl]morpholine using chemical proteomics. PLoS Neglected Tropical Diseases, Vol. 3, H. 8 , e506. |
