Research Groups
![Eva Absmeier](/en/chemie/biochemie/_inhaltselemente-rd/EA.jpg?width=700)
Absmeier Lab – mRNA Translation and Turnover
![Front_image](/en/chemie/biochemie/research-groups/herzel-group/JPG-GIF/Front_image.png?width=700)
Herzel Lab - RNA dynamics
![Francesca Bottanelli](/en/chemie/biochemie/_inhaltselemente-rd/FB.png?width=700)
Bottanelli Lab - Membrane trafficking
![Sigmar Stricker](/en/chemie/biochemie/_inhaltselemente-rd/SSt.jpg?width=700)
Stricker Lab - Biochemistry and Genetics
![Sutapa Chakrabarti](/en/chemie/biochemie/_inhaltselemente-rd/SC.jpg?width=700)
Chakrabarti Lab - mRNA-Metabolism
![Petra Knaus](/en/chemie/biochemie/_inhaltselemente-rd/PK.jpg?width=700)
Knaus Lab - Signal Transduction
![Markus Wahl](/en/chemie/biochemie/_inhaltselemente-rd/MW.jpg?width=700)
Wahl Lab - Structural Biochemistry
![Helge Ewers](/en/chemie/biochemie/_inhaltselemente-rd/HE.jpg?width=700)
Ewers Lab - Membrane Biochemistry
![Florian Heyd](/en/chemie/biochemie/_inhaltselemente-rd/FH.jpg?width=700)
Heyd Lab - RNA Biochemistry
![Christian Freund](/en/chemie/biochemie/_inhaltselemente-rd/CF.jpg?width=700)
Freund Lab - Protein Biochemistry
Image Credits
![Eva Absmeier](/en/chemie/biochemie/_inhaltselemente-rd/EA.jpg?width=700)
Eva Absmeier
Image Credit: —
![Front_image](/en/chemie/biochemie/research-groups/herzel-group/JPG-GIF/Front_image.png?width=700)
Front_image
Image Credit: —
![Francesca Bottanelli](/en/chemie/biochemie/_inhaltselemente-rd/FB.png?width=700)
Francesca Bottanelli
Image Credit: —
![Sigmar Stricker](/en/chemie/biochemie/_inhaltselemente-rd/SSt.jpg?width=700)
Sigmar Stricker
Image Credit: —
![Sutapa Chakrabarti](/en/chemie/biochemie/_inhaltselemente-rd/SC.jpg?width=700)
Sutapa Chakrabarti
Image Credit: —
![Petra Knaus](/en/chemie/biochemie/_inhaltselemente-rd/PK.jpg?width=700)
Petra Knaus
Image Credit: —
![Markus Wahl](/en/chemie/biochemie/_inhaltselemente-rd/MW.jpg?width=700)
Markus Wahl
Image Credit: —
![Helge Ewers](/en/chemie/biochemie/_inhaltselemente-rd/HE.jpg?width=700)
Helge Ewers
Image Credit: —
![Florian Heyd](/en/chemie/biochemie/_inhaltselemente-rd/FH.jpg?width=700)
Florian Heyd
Image Credit: —
![Christian Freund](/en/chemie/biochemie/_inhaltselemente-rd/CF.jpg?width=700)
Christian Freund
Image Credit: —
Recent Research
![Ilhan et al Graphical Abstract_rev](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/240626Ilhan-et-al-Graphical-Abstract_rev.jpeg?width=700)
Ilhan et. al. in International Journal of Molecular Sciences
Ilhan M., Hastar N., Kampfrath B., Spierling D. N., Jatzlau J., Knaus P..BMP Stimulation Differentially Affects Phosphorylation and Protein Stability of β-Catenin in Breast Cancer Cell Lines. Int. J. Mol. Sci. 2024, 25(9), 4593
![240416 Said et al. in Nature Communications](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/240416-Said-et-al_-in-Nature-Communications.jpg?width=700)
Said et al. in Nature Communications
![240410 Zuber](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/240410-Zuber.png?width=700)
Zuber et al. in Nature Communications
Concerted transformation of a hyper-paused transcription complex and its reinforcing protein
![Herzel in Nature Reviews Molecular Cell Biology](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/240409-Herzel.png?width=700)
Herzel in Nature Reviews Molecular Cell Biology
In this joint review with the Karla Neugebauer lab at Yale University we discuss co-transcriptional gene regulation in both prokaryotes and eukaryotes and highlight striking parallels in how RNA polymerases interact with the machineries that act on nascent RNA.
![240319 Wei in Nature C.](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/240319-Wei-in-Nature-C_.png?width=700)
Wei et al. in Nature Communications
The Stricker group shows a critical requirement for Neurofibromin to coordinate muscle fiber growth and muscle stem cell quiescence induction, and to prevent detrimental metabolic reprogramming with life-long consequences.
![230915 Knaus in iScience](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/230915-Knaus-in-iScience.jpg?width=700)
Knaus in iScience
Fluid Shear Stress-modulated chromatin accessibility reveals the mechano-dependency of endothelial SMAD1/5-mediated gene transcription
![Stricker in Immunity](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/230823-Stricker-in-Immunity.png?width=700)
Stricker in Immunity
The Stricker group provides a new model for lymph node initiation in the embryo
![230620 Dyhr](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/230620-Dyhr.jpg?width=700)
Dyhr et al. in PNAS
3D surface reconstruction of cellular cryo-soft X-ray microscopy tomograms using semisupervised deep learning
![230621 Thielhorn](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/230621-Thielhorn.png?width=700)
Thielhorn et al. in Angewandte Intl.. Ed.
Controlled Grafting Expansion Microscopy
![230510 Freund in nature chemical biology](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/230510-Freund-in-nature-chemical-biology.jpg?width=700)
Freund in Nature Chemical Biology
In this paper by Abualrous et al., catalyzed peptide exchange, a process that shapes T cell responses, is reported for 12 different MHC class II variants. Experimental approaches taken by the Freund laboratory are combined with a theoretical description by the Noe group. It is shown that the population of a transient state has predictive value for catalyzed exchange and that MHC class II dynamics correlates with the odds ratio for the autoimmune disease rheumatoid arthritis.
![230411 Kotsaris](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/230411-Kotsaris.png?width=700)
Kotsaris and Stricker in NPJ Regenerative Medicine
The Stricker group shows that Osr1 is a central transcriptional regulator of fibro-adipogenic progenitors during skeletal muscle regeneration
![270323 Sutapa](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/270323-RNA.png?width=700)
Chakrabarti in RNA
Modulation of RNA binding properties of the RNA helicase UPF1 by its activator UPF2
![230323 Heyd](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/230323-Heyd.jpg?width=700)
Heyd in EMBO Mol Med
A splicing-based mechanism may form the basis for a new therapeutic concept
in neurodegenerative diseases
![230314 Preussner in Science Advances](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/230314-Preussner-in-Science-Advances.png?width=700)
Preussner & Heyd in Science Advances
Regulation of alternative splicing after step 1 by C* factors
![230313 Jia et al. in Nature Communication](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/230313-Jia-et-al_-in-Nature-Communication.jpg?width=700)
Jia et al. in Nature Communication
Extended DNA threading through a dual-engine motor module of the activating signal co-integrator 1 complex
![230312 Vester et al. in Acta Crystallographica D](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/230312-Vester-et-al_-in-Acta-Crystallographica-D.jpg?width=700)
Vester et al. in Acta Crystallographica D
Conformation-dependent ligand hot spots in the spliceosomal RNA helicase, BRR2
![230113 Knaus in BMC Biology](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/230113-Knaus-in-BMC-Biology.png?width=700)
Knaus in BMC Biology
Atheroprone fluid shear stress-regulated ALK1-Endoglin-SMAD signaling originates from early endosomes
![230112 Jatzlau & Burdzinski et al. in Commun. Biol.](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/230112-Jatzlau-_-Burdzinski-et-al_.jpg?width=700)
Jatzlau & Burdzinski et. al. Commun. Biol.
Jatzlau & Burdzinski et al. have established techniques for visualization of TGFβ superfamily receptors and growth factors
![221219F Dang](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/221219F-Dang.jpg?width=700)
Dang et al. in Nature Communications
Molecular basis of antibiotic self-resistance in a bee larvae pathogen
![221219E Vester](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/221219E-Vester.jpg?width=700)
Vester et al. in Communications Biology
Recruitment of a splicing factor to the nuclear lamina for its inactivation
![221219D Huang](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/221219D-Huang.jpg?width=700)
Huang et al. in Methods in Enzymology
Fluorogenic RNA aptamers to probe transcription initiation and co-transcriptional RNA folding by multi-subunit RNA polymerases
![221219C Barthel](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/221219C-Barthel.jpg?width=700)
Barthel et al. in Journal of Medicinal Chemistry
Large-scale crystallographic fragment screening expedites compound optimization and identifies putative protein-protein interaction sites
![221219B Preußner](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/221219B-Preussner.jpg?width=700)
Preußner et al. in Acta Crystallographica D
Structural and functional investigation of the human snRNP assembly factor AAR2 in complex with the RNase H-like domain of PRPF8
![221219A Fritsch](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/221219A-Fritsch.jpg?width=700)
Fritsch et al. in Molecular Microbiology
The MerR‐family regulator NmlR is involved in the defense against oxidative stress in Streptococcus pneumonia
![221219bc Franz et al. in Life Science Alliance](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/221219bc-Franz-et-al_-in-Life-Science-Alliance.jpg?width=700)
Franz et al. in Life Science Alliance
Branch point strength controls species-specific CAMK2B alternative splicing and regulates LTP
![A human kinase yeast array for the identification of kinases modulating phosphorylation-dependent protein–protein interactions](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/220302-Jehle-et-al__-Mol-Syst-Biol_-2022.jpg?width=700)
Jehle et al. in Molecular Systems Biology
A human kinase yeast array for the identification of kinases modulating phosphorylation-dependent protein–protein interactions
![210810 He in Epilepsia](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/210810-He-in-Epilepsia.jpg?width=700)
He in Epilepsia
The molecular and phenotypic spectrum of CLCN4-related epilepsy
![Lan in Nature Communications](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/210725-Lan-in-Nature-Communication.png?width=700)
Lan et al. in Nature Communication
Exchange catalysis by tapasin exploits conserved and allele-specific features of MHC-I molecules
![Grass in PNAS](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/210727-Grass-et-al_-in-PNAS.jpg?width=700)
Grass et al. in PNAS
Large-scale ratcheting in a bacterial DEAH/RHA-type RNA helicase that modulates antibiotics susceptibility
![210726 Absmeier in JBC](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/210736-Absmeier-JBC.jpg?width=700)
Absmeier et al. in JBC
Long-range allostery mediates cooperative adenine nucleotide binding by the Ski2-like RNA helicase Brr2
![Reichenbach](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/210319-Reichenbach.jpg?width=700)
Reichenbach et al. in Advanced Biology
Differential Impact of Fluid Shear Stress and YAP/TAZ on BMP/TGF‐β Induced Osteogenic Target Genes
![Knaus-in-Stem-Cell-Rev-and-Rep](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/210126-Knaus-in-Stem-Cell-Rev-and-Rep.jpg?width=700)
Knaus in Stem Cell Rev and Rep
ActivinA Induced SMAD1/5 Signaling in an iPSC Derived EC
Model of Fibrodysplasia Ossificans Progressiva (FOP) Can Be Rescued by the
Drug Candidate Saracatinib
![Geertsema in Nature Biotechnology](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/210116-Geertsema.jpg?width=700)
Geertsema in Nature Biotechnology
Left-handed DNA-PAINT for improved super-resolution imaging in the nucleus
![Li in Nature Communications](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/210115-Li-ewers.jpg?width=700)
Li in Nature Communications
Directed manipulation of membrane proteins by fluorescent magnetic nanoparticles
![210104 Pei in Nature Communications](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/210104-Pei-rna-polymerase-muscle.jpg?width=700)
Pei in Nature Communications
The δ subunit and NTPase HelD institute a two-pronged mechanism for RNA polymerase recycling
![Roske in Nucleic Acids Research](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/201228-Roske-Graphical-abstract.jpg?width=700)
Roske in Nucleic Acids Research
A skipping rope translocation mechanism in a widespread family of DNA repair helicases
Roske in Nucleic Acids Research
![201208 Loll in JACS](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/201208-Loll-in-JACS.jpeg?width=700)
Loll in JACS
Loll in JACS: The Impression of a Nonexisting Catalytic Effect: The Role of CotB2 in Guiding the Complex Biosynthesis of Cyclooctat-9-en-7-ol
![Said in Science](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/201201-Said-in-Science.jpg?width=700)
Said in Science
Steps toward translocation-independent RNA polymerase inactivation by terminator ATPase ρ
![201123 Preussner in EMBO Reports](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/201123-Preussner-in-EMBO-Reports.jpg?width=700)
Preussner in EMBO Reports
Neumann in EMBO Reports
Neumann, Heyd, Preußner - Alternative splicing coupled mRNA decay shapes
the temperature‐dependent transcriptome
![Nf1](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/201112-Stricker.jpg?width=700)
Stricker in Journal of Cachexia, Sarcopenia and Muscle
Stricker in Journal of Cachexia, Sarcopenia and Muscle: Cell autonomous requirement of neurofibromin (Nf1) for postnatal muscle hypertrophic growth and metabolic homeostasis
![Hiepen in Cell](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/201007-Hiepen.png?width=700)
Hiepen in Cells
Hiepen, Mendes, Knaus in Cells:
"It Takes Two to Tango:
Endothelial TGFβ/BMP Signaling Crosstalk with Mechanobiology"
![200930Huang](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/200930Huang.jpg?width=700)
Huang in Molecular Cell
Huang - Structure-Based Mechanisms of a Molecular RNA Polymerase/Chaperone Machine Required for Ribosome Biosynthesis
![Freund-in-Brain](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/200728-Freund-in-Brain.jpg?width=700)
Freund in Brain
Freund in Brain
Syntaxin-1B mutations reveal clear molecular disease mechanisms that translate into distinct neurophysiological phenotypes
![Knaus in Bone](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/200618-Knaus-Bone.jpg?width=700)
Knaus in Bone
Knaus in Bone
BMP signalling in a mechanical context – Implications for bone biology
![Meinke et al in eLife](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/200507-Meinke1.jpg?width=700)
Meinke in eLife
Meinke et al, in eLife
Srsf10 and the minor spliceosome control
tissue-specific and dynamic SR protein expression
![Haltenhof in Molecular Cell](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/200214-Haltenhof.jpg?width=700)
Haltenhof in Molecular Cell
Tom Haltenhof et al. in Molecular Cell: A conserved kinase-based body
temperature sensor globally controls alternative splicing and gene
expression
![200201-Knaus in MBC of the cell](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/200201-Knaus-in-MBC-of-the-cell.jpg?width=700)
Knaus in MBC of the cell
Knaus-AMOT130 drives BMP-SMAD signaling at the apical membrane in polarized cells
![200114-Hiepen in PLOS Biol](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/200114-Hiepen-in-PLOS-Biol.jpg?width=700)
Hiepen in PLOS Biology
Hiepen-BMPR2 acts as a gatekeeper to protect endothelial cells from increased TGFβ responses and altered cell mechanics
![191108-Sutapa](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/191108Sutapa1.jpg?width=700)
Chakrabarti in Nature Communications
Chakrabarti - Insights into the assembly and architecture of a Staufen-mediated mRNA decay (SMD)-competent mRNP
![Loll in Beilstein J Org Chem](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/191105-Loll_.jpg?width=700)
Loll in Beilstein J Org Chem
Loll - Current understanding and biotechnological application of the bacterial diterpene synthase CotB2
![091019-Wahl-Nucleic Acids Res](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/091019-Wahl-Nucleic-Acids-Res.jpg?width=700)
Wahl in Nucleic Acids Research
Wahl - Structural basis for the function of SuhB as a transcription factor in ribosomal RNA synthesis
![190910-Freund](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/190910-Freund.jpg?width=700)
Freund in Structure
Freund - Exon Inclusion Modulates Conformational Plasticity and Autoinhibition of the Intersectin 1 SH3A Domain
![190627-Stauber-eLIFE](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/190627-Stauber.jpg?width=700)
Stauber in eLIFE
Stauber - A FRET sensor of C-terminal movement reveals VRAC activation by plasma membrane DAG signaling rather than ionic strength
![190416 Francesca PRPF39 structure](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/190416-Francesca-PRPF39-structure.jpg?width=700)
DeBortoli in Nucleic Acids Research
F. De Bortoli - Increased versatility despite reduced molecular complexity: evolution, structure and function of metazoan splicing factor PRPF39
![neumann_zelle1-3](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/neumann_zelle1-3.jpg?width=700)
Neumann in Journal of Cell Science
A. Neumann - Genome-wide identification of
alternative splicing events that regulate protein transport across the
secretory pathway
![190212-Jana-Sticht-Feb-2019-a](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/190212-Jana-Sticht-Feb-2019-a.jpg?width=700)
Sticht in Biophysical Journal
J. Sticht - FBP21’s C-Terminal Domain Remains Dynamic When Wrapped around the c-Sec63 Unit of Brr2 Helicase
![Driller/Nature Communications](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/041018-Driller_et_al-2018-Nature_Communications.jpg?width=700)
Driller in Nature Communications
R. Driller - Towards a comprehensive understanding of the
structural dynamics of a bacterial diterpene
synthase during catalysis
![070918-Stricker](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/070918-Stricker.jpg?width=700)
Stricker in Stem Cell Research
S. Stricker - Odd skipped-related 1 (Osr1) identifies muscle-interstitial fibro-adipogenic progenitors (FAPs) activated by acute injury
![180809-Loll](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/090818-Loll-Nature-Teil.png?width=700)
Loll in Nature Communications
B. Loll - Molecular insights into antibiotic resistance - how a binding protein traps albicidin
![080818-Stricker](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/080818-stricker-aug18-Teil.jpg?width=700)
Stricker in Development
S. Stricker - Genome-wide strategies identify downstream target genes of connective tissue-associated transcription factors
![070818-Stricker-PLoS](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/070818-Stricker-PLoS.png?width=700)
Stricker in PLoS ONE
Sigmar Stricker - Cooperation of BMP and IHH signaling in interdigital cell fate determination
![online access](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/Brr2.jpg?width=700)
Wollenhaupt in Biophysical Journal
Jan Wollenhaupt - Intrinsically Disordered Protein Ntr2 Modulates the Spliceosomal RNA Helicase Brr2
![online access](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/TOC_2017.jpg?width=700)
Loll in ChemBioChem
B. Loll: Ketonization of Proline Residues in the Peptide Chains of Actinomycins by a 4-Oxoproline Synthase
![online access](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/oha_546.jpg?width=700)
Loll in ChemCatChem
B. Loll: Rhodococcus erythropolis Oleate Hydratase: a New Member in the Oleate Hydratase Family Tree
Image Credits
![Ilhan et al Graphical Abstract_rev](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/240626Ilhan-et-al-Graphical-Abstract_rev.jpeg?width=700)
Ilhan et al Graphical Abstract_rev
Image Credit: —
![240416 Said et al. in Nature Communications](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/240416-Said-et-al_-in-Nature-Communications.jpg?width=700)
240416 Said et al. in Nature Communications
Image Credit: —
![240410 Zuber](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/240410-Zuber.png?width=700)
240410 Zuber
Image Credit: —
![Herzel in Nature Reviews Molecular Cell Biology](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/240409-Herzel.png?width=700)
Herzel in Nature Reviews Molecular Cell Biology
Image Credit: —
![240319 Wei in Nature C.](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/240319-Wei-in-Nature-C_.png?width=700)
240319 Wei in Nature C.
Image Credit: —
![230915 Knaus in iScience](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/230915-Knaus-in-iScience.jpg?width=700)
230915 Knaus in iScience
Image Credit: —
![Stricker in Immunity](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/230823-Stricker-in-Immunity.png?width=700)
Stricker in Immunity
Image Credit: —
![230620 Dyhr](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/230620-Dyhr.jpg?width=700)
230620 Dyhr
Image Credit: —
![230621 Thielhorn](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/230621-Thielhorn.png?width=700)
230621 Thielhorn
Image Credit: —
![230510 Freund in nature chemical biology](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/230510-Freund-in-nature-chemical-biology.jpg?width=700)
230510 Freund in nature chemical biology
Image Credit: —
![230411 Kotsaris](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/230411-Kotsaris.png?width=700)
230411 Kotsaris
Image Credit: —
![270323 Sutapa](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/270323-RNA.png?width=700)
270323 Sutapa
Image Credit: —
![230323 Heyd](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/230323-Heyd.jpg?width=700)
230323 Heyd
Image Credit: —
![230314 Preussner in Science Advances](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/230314-Preussner-in-Science-Advances.png?width=700)
230314 Preussner in Science Advances
Image Credit: —
![230313 Jia et al. in Nature Communication](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/230313-Jia-et-al_-in-Nature-Communication.jpg?width=700)
230313 Jia et al. in Nature Communication
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![230312 Vester et al. in Acta Crystallographica D](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/230312-Vester-et-al_-in-Acta-Crystallographica-D.jpg?width=700)
230312 Vester et al. in Acta Crystallographica D
Image Credit: —
![230113 Knaus in BMC Biology](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/230113-Knaus-in-BMC-Biology.png?width=700)
230113 Knaus in BMC Biology
Image Credit: —
![230112 Jatzlau & Burdzinski et al. in Commun. Biol.](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/230112-Jatzlau-_-Burdzinski-et-al_.jpg?width=700)
230112 Jatzlau & Burdzinski et al. in Commun. Biol.
Image Credit: —
![221219F Dang](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/221219F-Dang.jpg?width=700)
221219F Dang
Image Credit: —
![221219E Vester](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/221219E-Vester.jpg?width=700)
221219E Vester
Image Credit: —
![221219D Huang](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/221219D-Huang.jpg?width=700)
221219D Huang
Image Credit: —
![221219C Barthel](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/221219C-Barthel.jpg?width=700)
221219C Barthel
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![221219B Preußner](/en/chemie/biochemie/paper-highlights/Abbildung-Paper/221219B-Preussner.jpg?width=700)
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201208 Loll in JACS
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201123 Preussner in EMBO Reports
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