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Dominik Mühlen
Dominik Mühlen
Max Planck Institute for Multidisciplinary Sciences
Verified email at mpinat.mpg.de
Title
Cited by
Cited by
Year
An ancestral apical brain region contributes to the central complex under the control of foxQ2 in the beetle Tribolium
B He, M Buescher, MS Farnworth, F Strobl, EHK Stelzer, ...
Elife 8, e49065, 2019
252019
Manganese carbonates as possible biogenic relics in Archean settings
B Rincón-Tomás, B Khonsari, D Mühlen, C Wickbold, N Schäfer, ...
International Journal of Astrobiology 15 (3), 219-229, 2016
242016
The Red Flour Beetle as Model for Comparative Neural Development: Genome Editing to Mark Neural Cells in Tribolium Brain Development
MS Farnworth, KN Eckermann, HMM Ahmed, DS Mühlen, B He, G Bucher
Brain Development: Methods and Protocols, 191-217, 2020
152020
Recycling of parental histones preserves the epigenetic landscape during embryonic development
D Mühlen, X Li, O Dovgusha, H Jäckle, U Günesdogan
Science Advances 9 (5), eadd6440, 2023
62023
Differences in size and number of embryonic type-II neuroblast lineages are associated with divergent timing of central complex development between beetle and fly
S Rethemeier, S Fritzsche, D Mühlen, G Bucher, VS Hunnekuhl
bioRxiv, 2024.05. 03.592395, 2024
2024
Biomineral formation as a biosignature for microbial activities Precambrian cherts
B Rincón Tomás, D Mühlen, M Hoppert, J Reitner
EGU General Assembly Conference Abstracts, 7166, 2015
2015
Biomineral formation as a biosignature for microbial activities in Precambrian cherts
BR Tomás, D Mühlen, M Hoppert, J Reitner
2015
Biomineralformation byathermophilic Archaeon as a modelfor processes in Archean cherts
M Hoppert, D Mühlen, J Reitnerº
Dating the Origin of Life Present-Day Molecules and First Fossil Record, 2014
2014
An ancestral apical brain region contributes to the central complex under the control of foxQ2 in the beetle
B He, M Buescher, MS Farnworth, F Strobl, EHK Stelzer, ...
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