Rainer Melzer
TitelZitiert vonJahr
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
4352005
Molecular mechanisms underlying origin and diversification of the angiosperm flower
G Theissen, R Melzer
Annals of botany 100 (3), 603-619, 2007
2062007
The class E floral homeotic protein SEPALLATA3 is sufficient to loop DNA in ‘floral quartet’-like complexes in vitro
R Melzer, W Verelst, G Theißen
Nucleic Acids Research 37 (1), 144-157, 2008
1292008
Reconstitution of ‘floral quartets’ in vitro involving class B and class E floral homeotic proteins
R Melzer, G Theißen
Nucleic acids research 37 (8), 2723-2736, 2009
1172009
The naked and the dead: the ABCs of gymnosperm reproduction and the origin of the angiosperm flower
R Melzer, YQ Wang, G Theißen
Seminars in cell & developmental biology 21 (1), 118-128, 2010
942010
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
692016
Loss of deeply conserved C-class floral homeotic gene function and C-and E-class protein interaction in a double-flowered ranunculid mutant
KD Galimba, TR Tolkin, AM Sullivan, R Melzer, G Theißen, VS Di Stilio
Proceedings of the National Academy of Sciences 109 (34), E2267-E2275, 2012
612012
Structural basis for the oligomerization of the MADS domain transcription factor SEPALLATA3 in Arabidopsis
S Puranik, S Acajjaoui, S Conn, L Costa, V Conn, A Vial, R Marcellin, ...
The Plant Cell, tpc. 114.127910, 2014
432014
Molecular interactions of orthologues of floral homeotic proteins from the gymnosperm Gnetum gnemon provide a clue to the evolutionary origin of ‘floral quartets’
YQ Wang, R Melzer, G Theißen
The Plant Journal 64 (2), 177-190, 2010
432010
GORDITA (AGL63) is a young paralog of the Arabidopsis thaliana Bsister MADS box gene ABS (TT16) that has undergone neofunctionalization
R Erdmann, L Gramzow, R Melzer, G Theißen, A Becker
The Plant Journal 63 (6), 914-924, 2010
382010
Arabidopsis SEPALLATA proteins differ in cooperative DNA-binding during the formation of floral quartet-like complexes
K Jetha, G Theißen, R Melzer
Nucleic acids research 42 (17), 10927-10942, 2014
372014
DEF-and GLO-like proteins may have lost most of their interaction partners during angiosperm evolution
R Melzer, A Härter, F Rümpler, S Kim, PS Soltis, DE Soltis, G Theißen
Annals of botany 114 (7), 1431-1443, 2014
332014
The seirena B class floral homeotic mutant of California Poppy (Eschscholzia californica) reveals a function of the enigmatic PI motif in the formation of specific multimeric …
M Lange, S Orashakova, S Lange, R Melzer, G Theißen, DR Smyth, ...
The plant cell, tpc. 112.105809, 2013
332013
MADS and more: transcription factors that shape the plant
R Melzer, G Theißen
Plant Transcription Factors, 3-18, 2011
212011
Missing links: DNA‐binding and target gene specificity of floral homeotic proteins
R Melzer, K Kaufmann, G Theißen
Advances in Botanical Research 44, 209-236, 2006
152006
A double-flowered variety of lesser periwinkle (Vinca minor fl. pl.) that has persisted in the wild for more than 160 years
YQ Wang, R Melzer, G Theißen
Annals of botany 107 (9), 1445-1452, 2011
142011
The significance of developmental robustness for species diversity
R Melzer, G Theißen
Annals of botany 117 (5), 725-732, 2016
102016
Combinatorial control of floral organ identity by MADS-domain transcription factors
G Theißen, R Melzer
Annual Plant Reviews, Regulation of Transcription in Plants 29, 253, 2008
82008
Flower development, Genetics of
G Theißen, R Melzer
Brenner's Encyclopedia of Genetics, Second Edition, 2013
7*2013
Did convergent protein evolution enable phytoplasmas to generate ‘zombie plants’?
F Rümpler, L Gramzow, G Theißen, R Melzer
Trends in plant science 20 (12), 798-806, 2015
62015
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