Archaebacteria:
1. Ralf Schnabel & Johann Sonnenbichler (1981)
Stimulation of archaebacterial RNA polymerase by Silybin (Abstract)
Archaebacteria; Proc. I. Workshop on Archaebacteria, München (Kandler, O., ed.), p. 356, Gustav Fischer Verlag, Stuttgart, New York
2. W. Zillig, K. O. Stetter, R. Schnabel, J. Madon, & A. Gierl (1982)
Transcription in archaebacteria
Zbl. Bakt. Hyg., I. Abt. Orig. C 3, 218-227
3. H. Schnabel, W. Zillig, M. Pfäffle, R. Schnabel, H. Michel, & H. Delius (1982)
Halobacterium halobium phage FH
EMBO J. 1, 87-92
4. W. Zillig, R. Schnabel, J. Tu, & K. O. Stetter (1982)
The phylogeny of archaebacteria, including novel anaerobic thermoacidophiles in the light of RNA polymerase structure
Naturwissenschaften 69, 197-204
5. R. Schnabel, W. Zillig, & H. Schnabel (1982)
Component E of the DNA-dependent RNA polymerase of the archaebacterium Thermo-plasma acidophilum is required for the transcription of native DNA
Eur. J. Biochem. 129, 473-477
6. R. Schnabel, J. Sonnenbichler, & W. Zillig (1982)
Stimulation by silybin, a eukaryotic feature of archaebacterial RNA polymerases
FEBS Letters 150, 400-402
7. H. Schnabel, E. Schramm, R. Schnabel, & W. Zillig (1982)
Structural variability in the genome of phage FH of Halobacterium halobium
Mol. Gen. Genet. 188, 370-377
8. R. Schnabel (1982)
Archaebakterien, lebende Spuren der Urzeit
Münchener Medizinische Wochenschrift 124, 1143-1146
9. R. Schnabel, M. Thomm, R. Gerardy-Schahn, W. Zillig, K. O. Stetter, & J. Huet (1983)
Structural homology between archaebacterial DNA-dependent RNA polymerases analyzed by immunological comparison of their components
EMBO J. 2, 751-755
10. J. Huet, R. Schnabel, A. Sentenac, & W. Zillig (1983)
Archaebacteria and eukaryotes possess DNA-dependent RNA polymerases of a common type
EMBO J. 2, 1291-1294
11. R. Schnabel, J. Huet, M. Thomm, W. Zillig, A. Sentenac, & K. O. Stetter (1983)
Phylogeny of the archaebacteria and eukaryotes: Homology of the DNA-dependent RNA polymerases
in Endocytobiology Vol. II (Schenk, H. E. A., Schwemmler, W., eds.), pp. 895-912, Walter de Gruyter, Berlin, New York
12. H. Schnabel, R. Schnabel, S. Yeats, J. Tu, A. Gierl, H. Neumann, & W. Zillig (1984)
Genome organization and transcription in archaebacteria
Folia biologica (Praha), Proceedings of the FEBS Symposium on DNA, p. 2
13. R. Schnabel (1984)
Archaebakterien: lebende Zeugen der frühen Evolution
Chemie in unserer Zeit, 18. Jahrgang, 1984, Nr.4, 120-129
14. W. Zillig, K. O. Stetter, R. Schnabel, & M. Thomm (1985)
The DNA-dependent RNA polymerases of the archaebacteria
In: The Bacteria (Sokatch, J. R., Ornston, L. N., eds.). Vol. VIII, Archaebacteria, pp. 499-524, Academic Press, London
15. W. Zillig, R. Schnabel, & K. O. Stetter (1985)
Archaebacteria and the origin of the eukaryotic cytoplasm
In: Current Topics in Microbiology and Immunology, Vol. 114, pp. 1-17, Springer Verlag, Berlin, Heidelberg
16. F. Gropp, W. D. Reiter, A. Sentenac, W. Zillig, R. Schnabel, M. Thomm, & K. O. Stetter (1986)
Homology of components of DNA-dependent RNA polymerases of archaebacteria, eukaryotes and eubacteria
System. Appl. Microbiol. 7, 95-101
17. W. Zillig, R. Schnabel, K. Stetter, M. Thomm, F. Gropp, & W. D. Reiter (1987)
The evolution of the transcription apparatus
In: The Evolution of the Prokaryotes (Schleifer, K. H., Stackebrandt, E., eds.), Academic Press, New York
C. elegans:
18. J. R. Priess, H. Schnabel, & R. Schnabel (1987)
The glp-1 locus and cellular interaction in early C. elegans embryos
Cell 51, 601-611
19. R. Schnabel & H. Schnabel (1990)
Early determination in the C. elegans embryo: a gene, cib-1, required to specify a set of stem-cell-like blastomeres
Development 108, 107-119
20. H. Schnabel & R. Schnabel (1990)
An organ-specific differentiation gene, pha-1, from Caenorhabditis elegans
Science 250, 686-688
21. R. Schnabel (1991)
Cellular interactions involved in the determination of the early C. elegans embryo
Mech. Dev. 34, 85-100
22. R. Schnabel (1991)
Early determinative events in C. elegans
Current Opinion in Genetics and Development 1, 179-184
23. H. Schnabel, G. Bauer, & R. Schnabel (1991)
Suppressors of the organ-specific differentiation gene pha-1 of C. elegans
Genetics 129, 69-77
24. R. Schnabel (1994)
Autonomy and nonautonomy in cell fate specification of muscle in the Caenorhabditis elegans Embryo: A reciprocal induction
Science 263, 1449-1452
25. M. Granato, H. Schnabel & R. Schnabel (1994)
pha-1, a selectable marker for gene transfer in C. elegans
Nucl. Acids Res. 22, 1762-1763.
26. H. Hutter & R. Schnabel (1994)
glp-1 and inductions establishing embryonic axes in C. elegans.
Development 120, 2051-2065
27. M. Granato, R. Schnabel & H. Schnabel (1994)
Genesis of an organ: molecular analysis of the pha-1 gene
Development 120, 3005-3017
28. H. Hutter & R. Schnabel (1995)
Specification of anterior-posterior differences within the AB lineage in the C. elegans embryo: a polarising induction
Development 121, 1559-1568
29. R. Schnabel (1995) Duels without obvious sense: counteracting inductions involved in body wall muscle development in the C. elegans embryo
Development 120, 2219-2232
30. H. Hutter & R. Schnabel (1995)
The establishment of left-right asymmetries in the C. elegans embryo: a multistep process involving a series of inductive events
Development 120, 3417-3424
31. D. Moerman, H. Hutter, G. Mullen & R. Schnabel (1996)
Cell autonomous expression of perlecan and plasticity of cell shape in embryonic muscle of C.aenorhabditis elegans
Developmental Biology 173, 228-242
32. R. Schnabel C. Weigner, H. Hutter, R. Feichtinger & H. Schnabel (1996)
The gene mel-21/mex-1 and the partitioning of cell fate in the early C. elegans
Mech. Dev. 54, 133-147
33. R. Schnabel (1996)
Pattern formation: Regional specification in the nematode Caenorhabditis elegans
BioEssays, 18, 591-594
34. Ralf Schnabel & James R. Priess (1997)
Specification of the early embryonic cell fates in C. elegans
in Riddle, D. (1997). The nematode Caenorhabditis elegans II. New York: Cold Spring Harbor Laboratory Press.
35. Ralf Schnabel & Heinke Schnabel (1997)
Hox-genes misled by local environments
Nature, 385, 588-589
36. Ralf Schnabel, Harald Hutter, Don Moerman & Heinke Schnabel (1997)
Assessing normal embryogenesis in C. elegans embryo using a 4D-microscope:
variability of development and regional specification.
Developmental Biology, 184, 234-256
37. R. Schnabel (1997)
Why does a nematode have an invariant lineage?
Seminars in Cell & Developmental Biology, 8, 341-349
38. Titus Kaletta, Heinke Schnabel & Ralf Schnabel (1997)
Binary specification of the embryonic lineage in Caenorhabditis elegans
Nature, 390, 294-298
39. Greg P. Vatcher, Colin M. Thacker, Titus Kaletta, Heinke Schnabel, Ralf Schnabel, & David L. Baillie (1998)
Serine hydroxymethyltransferase is maternally essential in Caenorhabditis elegans
J. Biol. Chem., 273, 6066-6073
40. Kathryn A. Swan, Aaron F. Severson, J. Clayton Carter, Paula R. Martin, Heinke Schnabel, Ralf Schnabel, & Bruce Bowerman (1998)
cyk-1: a C. elegans FH gene required for a late step in embryonic cytokinesis
J. Cell. Sci., 111, 2017-2027
41. Claudia Dolinski, Gaetan Borgonie, Ralf Schnabel, & James G. Baldwin (1998)
Phylogenetic implications of buccal capsule development in some bacterial-feeding nematodes (Rhabditida: Nematoda)
Development Genes and Evolution, 208, 495-503
42. Laurent Molin, Heinke Schnabel, Titus Kaletta, Richard Feichtinger, Ian A. Hope, & Ralf Schnabel (1999).
Complexity of developmental control: Analysis of embryonic cell lineage specification in C. elegans using pes-1 as an early marker
Genetics 151; 131-141
43. Karin Brunschwig, Claudia Wittmann, Ralf Schnabel, Thomas Bürglin, Heinz Tobler and Fritz Müller (1999)
Anterior organization of the C. elegans embryo by the labial-like Hox gene ceh-13
Development, 126, 1537-1546
44. Pierre Gönczy, Heinke Schnabel, Tituts Kaletta, Ana Duran Amores, Tony Hyman, & Ralf Schnabel (1999)
Dissection of cellular morphogenetic processes in the one cell stage C. elegans embryo by mutational analysis
The Journal of Cell Biology, 144, 927-946
45. Thomas Wilm, Petra Demel, Ulrich Koop, & Ralf Schnabel (1999)
Ballistic transformation of C. elegans
Gene, 229, 31-35.
46. Ralf Schnabel (provided)
Biology in pictures: a question of fate (1999)
Curr. Biol. 12, R543.
47. Stefan Gerdt, Roger D. Dennis, Gaetan Borgonie, Ralf Schnabel and Rudolf Geyer (1999)
Isolation, characterisation and immunolocalisation of phosphocholine-substituted glycolipids in developmental stages of Caenorhabditis elegans
Eur. J. Biochem., 266, 952-963
48. Ralf Schnabel (1999)
Microscopy
in C. elegans; A Practical Approach (I.A. Hope, ed.) 119-141
49. Silke Pichler, Pierre Göncy, Heinke Schnabel, Andrei Pozniakowski, Anthony Ashford, Ralf Schnabel and Anthony Hyman (2000)
OOC-3, a novel putative transmenbrane protein required for establishment of cortical domains and spindle orientation in the P1 blastomere of C. elegans embryos
Development 127, 2063-2073.
50. Jantsch-Plunger V, Gonczy P, Romano A, Schnabel H, Hamill D, Schnabel R, Hyman AA, Glotzer M (2000)
CYK-4. A rho family gtpase activating protein (gap) required for central spindle formation and cytokines
The Journal of Cell Biology 149, 1391-1404.
51. Ralf Schnabel (2001)
C. elegans embryo: Determination of somatic cell fate. In: Embryonic Encyclopedia of Life Sciences. London: Nature Publishing Group. [www.els.net]
52. Karabinos A, Schmidt H, Harborth J, Schnabel R, Weber K. (2001)
Essential roles for four cytoplasmic intermediate filament proteins in Caenorhabditis elegans development.
PNAS 98, 7863-7868.
53. Hoeppner DJ, Hengartner MO, Schnabel R (2001)
Engulfment genes cooperate with ced-3 to promote cell death in Caenorhabditis elegans.
Nature 412, 202-206
54. Clucas C, Cabello J, Büssing I, Schnabel R and Johnstone I (2001)
Oncogenic potential of a C.elegans cdc25 gene is demonstrated by a gain-of-function allele.
EMBO Journal 21, 665-674
55. Streit, A., Kohler, R., Marty, T., Belfiore, M., Takacs-Vellai, K.,
Vigano, M. A., Schnabel, R., Affolter, M. and Müller, F. (2002).
Conserved regulation of the C. elegans labial/ Hox1 gene ceh-13.
Developmental Biology 242, 96-108
56. Kaitna S, Schnabel H, Schnabel R, Hyman AA, Glotzer M. (2002)
A ubiquitin C-terminal hydrolase is required to maintain osmotic balance and execute actin-dependent processes in the early C. elegans embryo.
Journal Cell Science 115, 2293-2302
57. Jansen WTM, Bolm M, Balling R, Chhatwal GS and Schnabel R (2002)
Hydrogen peroxide mediated killing of Caenorhabditis elegans by Streptococcus pyogenes.
Infection & Immunity 70, 5202-5207
58. Romano A, Guse A, Krascenicova I, Schnabel H, Schnabel R, Glotzer M (2003) CSC-1: a subunit of the Aurora B kinase complex that binds to the survivin-like protein BIR-1 and the incenp-like protein ICP-1.
The Journal of Cell Biology 161, 229-236
59. Urbach R, Schnabel R and Technau GM (2003)
The pattern of neuroblast formation, mitotic domains and proneural gene expression during early brain development in Drosophila.
Development 130, 3589-3606
60. Karabinos A, Büssing I, Schulz E, Wan, J, Weber K and Schnabel, R. (2003)
Functional analysis of the single calmodulin gene in the nematode C. elegans by RNA interference and 4-D microscopy
European. J. Cell Biology 82, 557-563
61. Maike Bolm, Wouter T. M. Jansen, Ralf Schnabel and Gursharan S. Chhatwal (2004) Hydrogen peroxide-mediated killing of Caenorhabditis elegans: a common feature of different streptococcal strains.
Infection & Immunity 72, 1192-1194
62. Marie Delattre, Sebastian Leidel, Khursheed Wani, Karine Baumer, Jeannine Bamat, Heinke Schnabel, Richard Feichtinger, Ralf Schnabel and Pierre Gönczy (2004) Centriolar SAS-5 is required for centrosome duplication in C. elegans.
Nature Cell Biology 6, 656-664
63. M. Bantscheff, B. Ringel, A. Madi, R. Schnabel, M. O. Glocker, and H.-J. Thiesen (2004).
Studying germ line formation during maturation of C. elegans by differential proteome analysis of a temperature-sensitive mutant.
Proteomics 4, 2283-2289
64. Jason M. Kinchen, Juan Cabello, Doris Klingele, Richard Feichtinger, Heinke Schnabel, Ralf Schnabel and Michael O. Hengartner (2005)
Two pathways converge at CED-10 to mediate actin rearrangement and corpse removal in C. elegans
Nature 434, 93-99
65. Andreas Hejnol & Ralf Schnabel (2005)
The embryo of the eutardigrade Thulinia stephaniae has an indeterminate development and the potential to regulate early blastomere ablations.
Development 132, 1349-1361
66. Gavilan A, Asencio C, Cabello J, Rodruigez-Aguilera JC, Schnabel R, Navas P (2005)
C. elegans knockouts in ubiquinone biosynthesis genes result in different phenotypes during larval development.
Biofactors 25(1-4):21-9
67. Asencio C, Rodruigez-Aguilera JC, Vazquez R, Baylis H, Cabello J, Schnabel R, Gavilan A, Navas P (2006)
Differential expression pattern of coq-8 gene during development in Caenorhabditis elegans.
Gene Expr. Patterns Apr;6(4):433-9. Epub 2006 Jan 18
68. Bischoff M, Schnabel R (2006)
Global cell sorting is mediated by local cell-cell interactions in the C. elegans embryo.
Developmental Biology Jun 15;294(2):432-44. Epub 2006 Apr 13
69. Schnabel R, Bischoff M, Hintze A, Schulz AK, Hejnol A, Meinhard H, Hutter H (2006)
Global cell sorting in the C. elegans embryo defines a new mechanism for pattern formation.
Developmental Biololgy Jun 15; 294(2):418-31. Epub 2006 Apr 13
70. Hejnol A, Schnabel R, Scholz G (2006)
A 4D-microscopic analysis of the germ band in the isopod crustacean Porcellio scaber (Malacostraca, Peracarida)- developmental and phylogenetic implications.
Dev. Genes Evol. Sep 28; [Epub ahead of print]
71. Hejnol A, Schnabel R (2006)
What a couple of dimensions can do for you: Comparative developmental studies using 4D-microscopy – examples from tardigrade development.
Integ Comp Biol 46, 151–161