| 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 | 1615 | 2013 |
| One thousand plant transcriptomes and the phylogenomics of green plants Nature 574 (7780), 679-685, 2019 | 1468 | 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 | 923 | 2011 |
| A hitchhiker's guide to the MADS world of plants L Gramzow, G Theissen Genome biology 11, 1-11, 2010 | 349 | 2010 |
| On the origin of MADS-domain transcription factors L Gramzow, MS Ritz, G Theißen Trends in Genetics 26 (4), 149-153, 2010 | 148 | 2010 |
| Horizontal gene transfer and functional diversification of plant cell wall degrading polygalacturonases: key events in the evolution of herbivory in beetles R Kirsch, L Gramzow, G Theißen, BD Siegfried, DG Heckel, Y Pauchet Insect biochemistry and molecular biology 52, 33-50, 2014 | 146 | 2014 |
| Dynamic genome evolution in a model fern DB Marchant, G Chen, S Cai, F Chen, P Schafran, J Jenkins, S Shu, ... Nature Plants 8 (9), 1038-1051, 2022 | 122 | 2022 |
| MADS goes genomic in conifers: towards determining the ancestral set of MADS-box genes in seed plants L Gramzow, L Weilandt, G Theißen Annals of botany 114 (7), 1407-1429, 2014 | 112 | 2014 |
| Live and Let Die - The Bsister MADS-Box Gene OsMADS29 Controls the Degeneration of Cells in Maternal Tissues during Seed Development of Rice (Oryza sativa) X Yang, F Wu, X Lin, X Du, K Chong, L Gramzow, S Schilling, A Becker, ... PloS one 7 (12), e51435, 2012 | 94 | 2012 |
| The Molecular Evolution of Cytochrome P450 Genes within and between Drosophila Species RT Good, L Gramzow, P Battlay, T Sztal, P Batterham, C Robin Genome biology and evolution 6 (5), 1118-1134, 2014 | 91 | 2014 |
| Phylogenomics of MADS-box genes in plants—two opposing life styles in one gene family L Gramzow, G Theißen Biology 2 (3), 1150-1164, 2013 | 85 | 2013 |
| Phylogenomics reveals surprising sets of essential and dispensable clades of MIKCc‐group MADS‐box genes in flowering plants L Gramzow, G Theißen Journal of Experimental Zoology Part B: Molecular and Developmental …, 2015 | 67 | 2015 |
| Genomes of multicellular algal sisters to land plants illuminate signaling network evolution X Feng, J Zheng, I Irisarri, H Yu, B Zheng, Z Ali, S de Vries, J Keller, ... Nature Genetics 56 (5), 1018-1031, 2024 | 64 | 2024 |
| 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 | 62 | 2010 |
| Structure and evolution of plant MADS domain transcription factors G Theißen, L Gramzow Plant transcription factors, 127-138, 2016 | 56 | 2016 |
| SR1—a small RNA with two remarkably conserved functions M Gimpel, H Preis, E Barth, L Gramzow, S Brantl Nucleic acids research 40 (22), 11659-11672, 2012 | 49 | 2012 |
| Array of MADS-box genes: facilitator for rapid adaptation? G Theißen, F Rümpler, L Gramzow Trends in plant science 23 (7), 563-576, 2018 | 46 | 2018 |
| Selaginella Genome Analysis – Entering the “Homoplasy Heaven” of the MADS World L Gramzow, E Barker, C Schulz, B Ambrose, N Ashton, G Theißen, A Litt Frontiers in Plant Science 3, 214, 2012 | 42 | 2012 |
| Two independent duplications forming the Cyp307a genes in Drosophila T Sztal, H Chung, L Gramzow, PJ Daborn, P Batterham, C Robin Insect biochemistry and molecular Biology 37 (10), 1044-1053, 2007 | 39 | 2007 |
| 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 | 38 | 2015 |
