Publikationen

Ausgewählte Publikationen der Abteilung

Baytek G, Blume A, Demirel FG, Bulut S, Mertins P, Tursun B.
SUMOylation of the chromodomain factor MRG-1 in C. elegans affects chromatin-regulatory dynamics
bioRxiv 2021, 2021.02.14.431134; doi: https://doi.org/10.1101/2021.02.14.431134

Kazmierczak M, Farré i Díaz C, Ofenbauer A, Herzog S, Tursun B.
The CONJUDOR pipeline for simultaneous knockdown of multiple genes identifies RBBP-5 as a germ cell reprogramming barrier in C. elegans
Nucleic Acids Research 2021, 1, 1-14; https://doi.org/10.1093/nar/gkaa1171

Ul Fatima N, Tursun B.
Conversion of germ cell to somatic cell types in C. elegans
Journal of Developmental biology 2020, 8, 24; https://doi.org/10.3390/jdb8040024

Mürthel S, Tursun B.
Epigenetic chaperoning of Aging.
Aging 2020, Jan 28;12(2):1044-1046. https://doi.org/10.18632/aging.102808

Mugahid D, Sengul T, You, X, Steil L, Bergman N, Radke M, Ofenbauer A, Salazer G, Balogh A, Kempa S, Tursun B, Völker U, Nelson L, Gotthardt M.
Proteomic and Transcriptomic Changes in Hibernating Grizzly Bears Reveal Metabolic and Signaling Pathways that Protect against Muscle Atrophy.
Scientific Reports 2019, 9 (1), 1-16. https://doi.org/10.1038/s41598-019-56007-8

Müthel S, Uyar B, He M, Krause A, Vitrinel B, Bulut S, Vasiljevic D, Akalin A, Kempa S, Tursun B.
The conserved histone chaperone LIN-53 links lifespan and healthspan regulation.
Aging Cell 2019, Aug 9:e13012. https://doi.org/10.1111/acel.13012

Ofenbauer A, Tursun B.
Strategies for in vivo reprogramming.
Current Opinion in Cell Biology 2019, Elsevier. https://doi.org/10.1016/j.ceb.2019.06.002

Tim Wolfram, Tursun B.
CRISPR-activation-based screen reveals neuronal fate promotion by Polycomb Repressive Complex 2 during direct reprogramming.
Stem Cell Investigation 2019. https://doi.org/10.21037/sci.2019.08.04

Wreczycka K, Franke V, Uyar B, Wurmus R, Bulut S, Tursun B, Akalin A.
HOT or not: examining the basis of high-occupancy target regions.
Nucleic Acids Res. 2019 Jun 20;47(11):5735-5745. https://doi.org/10.1093/nar/gkz460

Dupuy D, Tursun B.
C. elegans and System Biology
Current Opinion in Systems Biology 2019, Elsevier. https://doi.org/10.1016/j.coisb.2019.02.003

Hajduskova M, Baytek G, Kolundzic E, Gosdschan A, Kazmierczak M, Ofenbauer A, Beato desl Rosal ML, Ul Fatima N, Mertins N, Seelk-Müthel S, Tursun B.
MRG-1/MRG15 is a Barrier for Germ Cell to Neuron Reprogramming in C. elegans.
Genetics 2019, 211,121-139; https://doi.org/10.1534/genetics.118.301674
Recommended by F1000: https://f1000.com/prime/734438782#

Ibrahim M, Karabacak A, Glahs A, Kolundzic E, Hirsekorn A, Carda A, Tursun B, Zinzen R, Lacadie S, Ohler U.
Determinants of Transcription Initiation Directionality in Metazoans
Nature Communications, 2018 Oct 26;9(1). https://doi.org/10.1038/s41467-018-06962-z

Kolundzic E, Ofenbauer A, Seelk S, He M, Sommermeier S, Baytek G, Uyar B, Akalin A, Diecke S, Lacadie AS, Tursun B.
FACT is a barrier for cellular reprogramming in C. elegans and humans.
Developmental Cell 2018, 46, 611-626. https://doi.org/10.1016/j.devcel.2018.07.006
Editor's Choice Highlight in Science 2018, Aug. Vol.316: FACTs behind control of cell fate
Recommended by F1000: https://doi.org/10.3410/f.731255581.793537136

Reid A and Tursun B.
Transdifferentiation: do transition states lie on the path of development?
Current Opinion in Systems Biology 2018. https://doi.org/10.1016/j.coisb.2018.07.004

Kolundzic E, Seelk S, Tursun B.
Application of RNAi and heat-shock-induced transcription factor expression to reprogram germ cells to neurons in C. elegans
JoVE 2018, 131, 1-7; https://doi.org/10.3791/56889

Ofenbauer A, Tursun B.
The UNC-8 /UNC-84 LINC members are required for body wall muscle nuclei positioning in C. elegans.
Science Matters Select 2018, 4, 1-8; https://doi.org/10.19185/matters.201805000009

Wilhelm T, Byrne J, Kolundzic K, Medina R, Hajduskova M, Tursun B, Richly H
Post-reproductive inhibition of autophagy extends lifespan in C. elegans.
Genes & Development 2017. https://doi.org/10.1101/gad.301648.117

Tursun B.
PcG Protein in Caenorhabditis elegans.
Elsevier Academic Press 2017, 289-315. https://doi.org/10.1016/B978-0-12-809737-3.00012-X

Seelk S*, Kalchhauser I, Hargitai B, Hajduskova M, Tursun B^# and Ciosk R
Notch signaling antagonizes PRC2-mediated silencing to promote reprograming of germ cells into neurons.
eLife 2016, 5. pii: e15477. https://doi.org/10.7554/eLife.15477
#corresponding & submitting author, *Seelk is Tursun lab PhD

Waaijers S, Muñoz J, Berends B, Goerdayal S, Low T, Ramalho J, Zoumaro-Djayoon A, Hoffmann M, Koorman T, Tas R, Harterink M, Seelk S, Kerver J, Hoogenraad C, Bossinger O, Tursun B^#; van den Heuvel S, Heck AJ Boxem M#.
A Tissue-Specific Protein Purification Approach in Caenorhabditis elegans identifies Novel Interaction Partners of DLG-1/Discs large.
BMC Biol. 2016, 9.14:66. https://doi.org/10.1186/s12915-016-0286-x
#co-corresponding

Tursun B.
The European C. elegans Meeting in Berlin May, 2014
If it says C. elegans on the cover, it is actually about systems biology!
Systemsbiology Magazine 2014 08: 82 – 83.

Cochella L*, Tursun B*, Hsieh YW, Johnston RJ, Chunag CF, Hobert O.
Two distinct types of neuronal asymmetries are controlled by the Caenorhabditis elegans zinc finger factor die-1.
Genes & Development 2014, 28: 34-48; *co-first authorship

Tursun B.
Cellular reprogramming processes in Drosophila and C. elegans.
Curr Opin Genet Dev. 2012, 22: 475-484.

Patel T*, Tursun B*, Rahe, DP, Hobert O.
Removal of Polycomb Repressive Complex 2 makes C. elegans germ cells susceptible to direct conversion into specific somatic cell types.
Cell Reports 2012, 2: 1178-1186; *co-first authorship

Tursun B^#, Patel T, Kratsios P, Hobert O#.
Direct conversion of C. elegans germ cells into specific neuron types.
Science 2011, 331: 304-308; #co-corresponding
Highlighted by Nature, Curr.Biol.,

Didiano D, Cochella L, Tursun B and Hobert O.
Neuron-type specific regulation of a 3’UTR through cis-regulatory elements.
RNA 2010, 16: 349-63

Flowers EB, Poole R, Tursun B, Bashllari E, Pe’er I and Hobert O.
UNC-37/Groucho interacts with a short Groucho-like protein, LSY-22, to control developmental decisions.
Development 2010, 137: 1799-805

 Sarin S, Antonio C, Tursun B, Hobert O.
The C. elegans Tailless/TLX transcription factor nhr-67 controls neuronal identity and left/right asymmetric fate diversification.
Development 2009, 136: 2933-44

Tursun B^#, Cochella L, Carrera I, Hobert O#.
A toolkit and robust pipeline for the generation of fosmid-based reporter genes in C. elegans.
PLOSone 2009, 4 :e4625; #corresponding

Johnsen SA, Guengoer C, Prenzel T, Riethdorf S, Riethdorf L, Taniguchi-Ishigaki N, Rau T, Tursun B, Furlow JD, Sauter G, Scheffner M,K, Gannon F, Bach I.
Regulation of estrogen-dependent transcription by the LIM cofactors CLIM and RLIM in cancer.
Cancer Res. 2009, 69: 128-36.

Guengor C, Taniguchi-Ishigaki N, Ma H, Drung A, Tursun B, Ostendorff HP, Bossenz M, Becker CG,Becker T, Bach I.
Proteasomal selection of multiprotein complexes recruited by LIM homeodomain factors.
PNAS 2007, 104: 15000-5

Ostendorff HP*, Tursun B*, Cornils K, Schluter A, Drung A, Guengoer C, Bach I.
Dynamic expression of LIM cofactors in the developing mouse neural tube.
Developmental Dyn. 2006, 235: 786-791; *co-first authorship

Tursun B, Schluter A, Peters MA, Viehweger B, Ostendorff HP, Soosairajah J, Drung A, Bossenz M, Johnsen SA, Schweizer M, Bernard O, Bach I.
The ubiquitin ligase Rnf6 regulates local LIM kinase 1 levels in axonal growth cones.
Genes & Development 2005, 19: 2307-19

Becker T, Bossenz M, Tursun B, Schluter A, Peters MA, Becker CG, Ostendorff HP, Bach I.
Comparing protein stabilities during zebrafish embryogenesis.
Methods Cell Sci. 2005, 25: 85-89

Michaelis G, Esser K, Tursun B, Stohn JP, Hanson S, Pratje E.
Mitochondrial signal peptidases of yeast: the rhomboid peptidase Pcp1 and its substrate cytochrome C peroxidase.
Gene 2005, 354: 58-63

Esser K, Tursun B, Ingenhoven M, Michaelis G, Pratje E.
A novel two-step mechanism for removal of a mitochondrial signal sequence involves the mAAA complex and the putative rhomboid protease Pcp1.
J Mol Biol 2002, 323: 835-43