A new phylum of Archaea represented by a nanosized hyperthermophilic symbiont H Huber, MJ Hohn, R Rachel, T Fuchs, VC Wimmer, KO Stetter Nature 417 (6884), 63-67, 2002 | 1082 | 2002 |
Aquifex pyrophilus gen. nov. sp. nov., represents a novel group of marine hyperthermophilic hydrogen-oxidizing bacteria R Huber, T Wilharm, D Huber, A Trincone, S Burggraf, H König, ... Systematic and Applied Microbiology 15 (3), 340-351, 1992 | 528 | 1992 |
Layer-by-layer assembled gold nanoparticles for siRNA delivery A Elbakry, A Zaky, R Liebl, R Rachel, A Goepferich, M Breunig Nano letters 9 (5), 2059-2064, 2009 | 524 | 2009 |
Pyrolobus fumarii, gen. and sp. nov., represents a novel group of archaea, extending the upper temperature limit for life to 113°C E Blöchl, R Rachel, S Burggraf, D Hafenbradl, HW Jannasch, KO Stetter Extremophiles 1, 14-21, 1997 | 472 | 1997 |
Ferroglobus placidus gen. nov., sp. nov., a novel hyperthermophilic archaeum that oxidizes Fe2+ at neutral pH under anoxic conditions D Hafenbradl, M Keller, R Dirmeier, R Rachel, P Roßnagel, S Burggraf, ... Archives of microbiology 166, 308-314, 1996 | 370 | 1996 |
Pyrobaculum aerophilum sp. nov., a novel nitrate-reducing hyperthermophilic archaeum R Huber, E Drobner, R Rachel, S Burggraf, A Trincone, KO Stetter Applied and Environmental Microbiology 59 (9), 2918-2926, 1993 | 362 | 1993 |
Crystalline bacterial cell surface layers UB Sleytr, P Messner, D Pum, M Sára Molecular microbiology 10 (5), 911-916, 1993 | 291 | 1993 |
Thermocrinis ruber gen. nov., sp. nov., a Pink-Filament-Forming Hyperthermophilic Bacterium Isolated from Yellowstone National Park R Huber, W Eder, S Heldwein, G Wanner, H Huber, R Rachel, KO Stetter Applied and Environmental Microbiology 64 (10), 3576-3583, 1998 | 225 | 1998 |
Symmetric complexes of GroE chaperonins as part of the functional cycle M Schmidt, K Rutkat, R Rachel, G Pfeifer, R Jaenicke, P Viitanen, ... Science 265 (5172), 656-659, 1994 | 224 | 1994 |
Electron tomography of ice-embedded prokaryotic cells R Grimm, H Singh, R Rachel, D Typke, W Zillig, W Baumeister Biophysical journal 74 (2), 1031-1042, 1998 | 223 | 1998 |
Arginine-rich cell-penetrating peptides induce membrane multilamellarity and subsequently enter via formation of a fusion pore C Allolio, A Magarkar, P Jurkiewicz, K Baxová, M Javanainen, PE Mason, ... Proceedings of the National Academy of Sciences 115 (47), 11923-11928, 2018 | 216 | 2018 |
Characterization of a 200‐kDa diatom protein that is specifically associated with a silica‐based substructure of the cell wall N Kröger, G Lehmann, R Rachel, M Sumper European journal of Biochemistry 250 (1), 99-105, 1997 | 211 | 1997 |
Independent virus development outside a host M Häring, G Vestergaard, R Rachel, L Chen, RA Garrett, D Prangishvili Nature 436 (7054), 1101-1102, 2005 | 185 | 2005 |
Furrow-like invaginations of the yeast plasma membrane correspond to membrane compartment of Can1 V Strádalová, W Stahlschmidt, G Grossmann, M Blazíková, R Rachel, ... Journal of cell science 122 (16), 2887-2894, 2009 | 183 | 2009 |
Mating type‐specific cell‐cell recognition of Saccharomyces cerevisiae: cell wall attachment and active sites of a‐and alpha‐agglutinin. C Cappellaro, C Baldermann, R Rachel, W Tanner The EMBO journal 13 (20), 4737-4744, 1994 | 183 | 1994 |
Pyrodictium abyssi sp. nov. represents a novel heterotrophic marine archaeal hyperthermophile growing at 110 C U Pley, J Schipka, A Gambacorta, HW Jannasch, H Fricke, R Rachel, ... Systematic and Applied Microbiology 14 (3), 245-253, 1991 | 176 | 1991 |
Thermococcus chitonophagus sp. nov., a novel, chitin-degrading, hyperthermophilic archaeum from a deep-sea hydrothermal vent environment R Huber, J Stöhr, S Hohenhaus, R Rachel, S Burggraf, HW Jannasch, ... Archives of microbiology 164, 255-264, 1995 | 166 | 1995 |
Stabilization of amorphous calcium carbonate in inorganic silica-rich environments M Kellermeier, E Melero-Garcia, F Glaab, R Klein, M Drechsler, R Rachel, ... Journal of the American Chemical Society 132 (50), 17859-17866, 2010 | 164 | 2010 |
Formation of ammonium from nitrate during chemolithoautotrophic growth of the extremely thermophilic bacterium ammonifex degensii gen. nov. sp. nov. R Huber, P Rossnagel, CR Woese, R Rachel, TA Langworthy, KO Stetter Systematic and Applied Microbiology 19 (1), 40-49, 1996 | 160 | 1996 |
The ultrastructure of Ignicoccus: evidence for a novel outer membrane and for intracellular vesicle budding in an archaeon R Rachel, I Wyschkony, S Riehl, H Huber Archaea 1 (1), 9, 2001 | 157 | 2001 |