Martin Pippel
Martin Pippel
Bioinformatician, MPI-CBG Dresden
Verified email at mpi-cbg.de
Title
Cited by
Cited by
Year
The axolotl genome and the evolution of key tissue formation regulators
S Nowoshilow, S Schloissnig, JF Fei, A Dahl, AWC Pang, M Pippel, ...
Nature 554 (7690), 50-55, 2018
1892018
The axolotl genome and the evolution of key tissue formation regulators
S Nowoshilow, S Schloissnig, JF Fei, A Dahl, AWC Pang, M Pippel, ...
Nature 554 (7690), 50-55, 2018
1882018
The role of histone demethylases in cancer therapy
I Hoffmann, M Roatsch, ML Schmitt, L Carlino, M Pippel, W Sippl, M Jung
Molecular oncology 6 (6), 683-703, 2012
952012
The genome of Schmidtea mediterranea and the evolution of core cellular mechanisms
MA Grohme, S Schloissnig, A Rozanski, M Pippel, GR Young, S Winkler, ...
Nature 554 (7690), 56-61, 2018
692018
Nonpeptidic propargylamines as inhibitors of lysine specific demethylase 1 (LSD1) with cellular activity
ML Schmitt, AT Hauser, L Carlino, M Pippel, J Schulz-Fincke, E Metzger, ...
Journal of medicinal chemistry 56 (18), 7334-7342, 2013
472013
ParaDockS: A Framework for Molecular Docking with Population-Based Metaheuristics
R Meier, M Pippel, F Brandt, W Sippl, C Baldauf
Journal of chemical information and modeling 50 (5), 879-889, 2010
472010
The mitochondrial genome sequences of the round goby and the sand goby reveal patterns of recent evolution in gobiid fish
I Adrian-Kalchhauser, O Svensson, VE Kutschera, MA Rosenblad, ...
BMC genomics 18 (1), 177, 2017
122017
Substituted 2-(2-aminopyrimidin-4-yl) pyridine-4-carboxylates as potent inhibitors of JumonjiC domain-containing histone demethylases
M Roatsch, D Robaa, M Pippel, JE Nettleship, Y Reddivari, LE Bird, ...
Future medicinal chemistry 8 (13), 1553-1571, 2016
112016
The genome of the tegu lizard Salvator merianae: combining Illumina, PacBio, and optical mapping data to generate a highly contiguous assembly
JG Roscito, K Sameith, M Pippel, KJ Francoijs, S Winkler, A Dahl, ...
GigaScience 7 (12), giy141, 2018
52018
Six new reference-quality bat genomes illuminate the molecular basis and evolution of bat adaptations
D Jebb, Z Huang, M Pippel, GM Hughes, K Lavrichenk, P Devanna, ...
12019
Development of target-biased scoring functions for protein-ligand docking
M Scharfe, M Pippel, W Sippl
Journal of cheminformatics 4 (S1), P35, 2012
12012
The round goby genome provides insights into mechanisms that may facilitate biological invasions
I Adrian-Kalchhauser, A Blomberg, T Larsson, Z Musilova, CR Peart, ...
BMC biology 18 (1), 1-33, 2020
2020
A highly contiguous genome assembly of the bat hawkmoth Hyles vespertilio (Lepidoptera: Sphingidae)
M Pippel, D Jebb, F Patzold, S Winkler, H Vogel, G Myers, M Hiller, ...
GigaScience 9 (1), giaa001, 2020
2020
Diversity, dynamics and effects of long terminal repeat retrotransposons in the model grass Brachypodium distachyon
C Stritt, M Wyler, EL Gimmi, M Pippel, AC Roulin
New Phytologist, 2019
2019
Evolved for success in novel environments: The round goby genome
I Adrian-Kalchhauser, A Blomberg, T Larsson, Z Musilova, CR Peart, ...
bioRxiv, 708974, 2019
2019
ParaDockS-an open-source framework for molecular docking: implementation of target-class-specific scoring methods
M Scharfe, M Pippel, W Sippl
Journal of cheminformatics 5 (1), 1-1, 2013
2013
ParaDockS–an open source framework for molecular docking
M Pippel, M Scharfe, R Meier, W Sippl
Journal of cheminformatics 4 (S1), F3, 2012
2012
Einfach und frei: Protein-Ligand-Docking
M Pippel, M Scharfe, R Meier, W Sippl
Nachrichten aus der Chemie 60 (6), 656-657, 2012
2012
PARADOCKS–a framework for molecular docking
M Pippel, R Meier, W Sippl
Journal of cheminformatics 3 (S1), P35, 2011
2011
A highly contiguous genome assembly of the bat hawkmoth Hyles vespertilio (Lepidoptera: Sphingidae)
G Myers, D Forschungsgemeinschaft, M Pippel
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Articles 1–20