Günter Theißen
Cited by
Cited by
The Norway spruce genome sequence and conifer genome evolution
B Nystedt, NR Street, A Wetterbom, A Zuccolo, YC Lin, DG Scofield, ...
Nature 497 (7451), 579-584, 2013
Development of floral organ identity: stories from the MADS house
G Theißen
Current opinion in plant biology 4 (1), 75-85, 2001
The major clades of MADS-box genes and their role in the development and evolution of flowering plants
A Becker, G Theißen
Molecular phylogenetics and evolution 29 (3), 464-489, 2003
Floral quartets
G Theissen, H Saedler
Nature 409 (6819), 469-471, 2001
A short history of MADS-box genes in plants
G Theissen, A Becker, A Di Rosa, A Kanno, JT Kim, T Münster, KU Winter, ...
Plant molecular evolution, 115-149, 2000
One thousand plant transcriptomes and the phylogenomics of green plants
Nature 574 (7780), 679-685, 2019
The Selaginella genome identifies genetic changes associated with the evolution of vascular plants
JA Banks, T Nishiyama, M Hasebe, JL Bowman, M Gribskov, ...
science 332 (6032), 960-963, 2011
MIKC-type MADS-domain proteins: structural modularity, protein interactions and network evolution in land plants
K Kaufmann, R Melzer, G Theißen
Gene 347 (2), 183-198, 2005
Classification and phylogeny of the MADS-box multigene family suggest defined roles of MADS-box gene subfamilies in the morphological evolution of eukaryotes
G Theißen, JT Kim, H Saedler
Journal of Molecular Evolution 43, 484-516, 1996
MADS-box genes reveal that gnetophytes are more closely related to conifers than to flowering plants
KU Winter, A Becker, T Münster, JT Kim, H Saedler, G Theissen
Proceedings of the National Academy of Sciences 96 (13), 7342-7347, 1999
The Chara genome: secondary complexity and implications for plant terrestrialization
T Nishiyama, H Sakayama, J De Vries, H Buschmann, D Saint-Marcoux, ...
Cell 174 (2), 448-464. e24, 2018
MADS-domain transcription factors and the floral quartet model of flower development: linking plant development and evolution
G Theißen, R Melzer, F Rümpler
Development 143 (18), 3259-3271, 2016
Floral homeotic genes were recruited from homologous MADS-box genes preexisting in the common ancestor of ferns and seed plants
T Münster, J Pahnke, A Di Rosa, JT Kim, W Martin, H Saedler, G Theissen
Proceedings of the National Academy of Sciences 94 (6), 2415-2420, 1997
Heterotopic expression of class B floral homeotic genes supports a modified ABC model for tulip (Tulipa gesneriana)
A Kanno, H Saeki, T Kameya, H Saedler, G Theissen
Plant molecular biology 52, 831-841, 2003
A hitchhiker's guide to the MADS world of plants
L Gramzow, G Theissen
Genome biology 11, 1-11, 2010
Structural diversification and neo‐functionalization during floral MADS‐box gene evolution by C‐terminal frameshift mutations
M Vandenbussche, GÈ Theissen, Y Van de Peer, T Gerats
Nucleic Acids Research 31 (15), 4401-4409, 2003
Two Ancient Classes of MIKC-type MADS-box Genes are Present in the Moss Physcomitrella patens
K Henschel, R Kofuji, M Hasebe, H Saedler, T Münster, G Theißen
Molecular Biology and Evolution 19 (6), 801-814, 2002
Molecular mechanisms underlying origin and diversification of the angiosperm flower
G Theissen, R Melzer
Annals of botany 100 (3), 603-619, 2007
And then there were many: MADS goes genomic
S De Bodt, J Raes, Y Van de Peer, G Theißen
Trends in plant science 8 (10), 475-483, 2003
Functional conservation and diversification of class E floral homeotic genes in rice (Oryza sativa)
R Cui, J Han, S Zhao, K Su, F Wu, X Du, Q Xu, K Chong, G Theißen, ...
The Plant Journal 61 (5), 767-781, 2010
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