Fakultät für Biologie
Personenverzeichnis
Die Links zu den Personen führen zum zentralen Personenverzeichnis der UDE, das die Daten aus dem LSF ausliest. Persönliche Informationen können im LSF (nach Login mit der Uni-Kennung) selbst bearbeitet werden.
Anschrift
Universitätsstr 2
45117 Essen
45117 Essen
Raum
S05 V01 E46
Telefon
E-Mail
Funktionen
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Akademische/r Rätin/Rat, Entwicklungsbiologie
Aktuelle Veranstaltungen
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2024 SS
- Molekulare Mechanismen der Organentwicklung (Seminar)
- Modellsysteme der biologisch-medizinischen Forschung
- Molekulare Entwicklungsbiologie
- Molekulare Mechanismen der Organentwicklung (Vorlesung)
- Literaturseminar Progress in Developmental Biology
- Seminar Ökologie, Evolutions-und Entwicklungsbiologie für BioBSc - Anmeldung mit mehreren Prioritäten!
Vergangene Veranstaltungen (max. 10)
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2023 WS
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2023 SS
Die folgenden Publikationen sind in der Online-Universitätsbibliographie der Universität Duisburg-Essen verzeichnet. Weitere Informationen finden Sie gegebenenfalls auch auf den persönlichen Webseiten der Person.
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Epigenetic mechanisms mediating cell state transitions in chondrocytesIn: Journal of Bone and Mineral Research (JBMR) Jg. 36 (2021) Nr. 5, S. 968 - 985Online Volltext: dx.doi.org/ Online Volltext (Open Access)
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Wnt5a is a transcriptional target of Gli3 and Trps1 at the onset of chondrocyte hypertrophyIn: Developmental Biology Jg. 457 (2020) Nr. 1, S. 104 - 118Online Volltext: dx.doi.org/ (Open Access)
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A network of trans-cortical capillaries as mainstay for blood circulation in long bonesIn: Nature Metabolism Jg. 1 (2019) Nr. 2, S. 236 - 250Online Volltext: dx.doi.org/ Online Volltext (Open Access)
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A newly discovered stem cell that keeps bones growingIn: Nature Jg. 567 (2019) Nr. 7747, S. 178 - 179Online Volltext: dx.doi.org/ (Open Access)
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Atoh8 acts as a regulator of chondrocyte proliferation and differentiation in endochondral bonesIn: PLoS ONE Jg. 14 (2019) Nr. 8, S. e0218230
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Signaling systems affecting the severity of multiple osteochondromasIn: Bone: Official Journal of the International Bone and Mineral Society (IBMS) Jg. 111 (2018) S. 71 - 81Online Volltext: dx.doi.org/ (Open Access)
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Epigenetic regulation of chondrocyte differentiation
18th International Congress of Developmental Biology, 18-22 June, Singapore,In: Mechanisms of Development Jg. 145 (2017) Nr. Supplement: 18th International Congress of Developmental Biology 18-22 June, University Cultural Centre, National University of Singapore, S. S141Online Volltext: dx.doi.org/ -
CCN1 (CYR61) and CCN3 (NOV) signaling drives human trophoblast cells into senescence and stimulates migration propertiesIn: Cell Adhesion & Migration Jg. 10 (2016) Nr. 1-2, S. 163 - 178Online Volltext: dx.doi.org/ Online Volltext (Open Access)
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CCN3 signaling is dysregulated in the pregnancy disorder preeclampsiaIn: Journal of Reproductive Immunology Jg. 115 (2016) S. 71 - 71Online Volltext: dx.doi.org/
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Survival protein anoctamin-6 controls multiple platelet responses including phospholipid scrambling, swelling, and protein cleavageIn: The FASEB Journal Jg. 30 (2016) Nr. 2, S. 727 - 737Online Volltext: dx.doi.org/
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Anoctamin-6 Controls Bone Mineralization by Activating the Calcium Transporter NCX1In: The Journal of Biological Chemistry (JBC) Jg. 290 (2015) Nr. 10, S. 6270 - 6280Online Volltext: dx.doi.org/ (Open Access)
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CCN3 (NOV) : A key player in trophoblast differentiation promoting cell cycle exit and migration of extravillous trophoblast cells and its role in preeclampsiaIn: Placenta Jg. 35 (2014) Nr. 9, S. A108Online Volltext: dx.doi.org/
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Inactivation of Patched1 in murine chondrocytes causes spinal fusion without inflammationIn: Arthritis & Rheumatology Jg. 66 (2014) Nr. 4, S. 831 - 840Online Volltext: dx.doi.org/
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Inactivation of anoctamin-6/Tmem16f, a regulator of phosphatidylserine scrambling in osteoblasts, leads to decreased mineral deposition in skeletal tissuesIn: Journal of Bone and Mineral Research (JBMR) Jg. 28 (2013) Nr. 2, S. 246 - 259Online Volltext: dx.doi.org/
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The multi zinc-finger protein Trps1 acts as a regulator of histone deacetylation during mitosisIn: Cell Cycle Jg. 12 (2013) Nr. 14, S. 2219 - 2232Online Volltext: dx.doi.org/
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Hoxa11 and Hoxd11 regulate chondrocyte differentiation upstream of Runx2 and Shox2 in miceIn: PLoS ONE Jg. 7 (2012) Nr. 8, S. e43553Online Volltext: dx.doi.org/ Online Volltext (Open Access)
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Prdm5 Regulates Collagen Gene Transcription by Association with RNA Polymerase II in Developing BoneIn: PLoS Genetics Jg. 8 (2012) Nr. 5, S. e1002711Online Volltext: dx.doi.org/ (Open Access)
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BMP signaling balances proliferation and differentiation of muscle satellite cell descendants.In: BMC Cell Biology Jg. 12 (2011) S. 26Online Volltext: dx.doi.org/ Online Volltext (Open Access)
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The resorption of nanocrystalline calcium phosphates by osteoclast-like cellsIn: Acta Biomaterialia Jg. 6 (2010) Nr. 8, S. 3223 - 3233Online Volltext: dx.doi.org/
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Transcriptional networks controlling chondrocyte proliferation and differentiation during endochondral ossification.In: Pediatric Nephrology Jg. 25 (2010) Nr. 4, S. 625 - 631Online Volltext: dx.doi.org/
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Trps1, a regulator of chondrocyte proliferation and differentiation, interacts with the activator form of Gli3In: Developmental Biology Jg. 328 (2009) Nr. 1, S. 40 - 53Online Volltext: dx.doi.org/
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Tricho-rhino-phalangeal syndrome with supernumerary teethIn: Journal of Dental Research: JDR Online Jg. 87 (2008) Nr. 11, S. 1027 - 1031Online Volltext: dx.doi.org/
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Ucma - A novel secreted factor represents a highly specific marker for distal chondrocytesIn: Matrix Biology Jg. 27 (2008) Nr. 1, S. 3 - 11Online Volltext: dx.doi.org/
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The role of growth factors in chondrogenesis and osteogenesisIn: Current Opinion in Orthopaedics Jg. 17 (2006) S. 405 - 411Online Volltext: dx.doi.org/
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Gli3 has repressing and activating functions downstream of Ihh in regulating two distinct steps of chondrocyte differentiationIn: Development / Company of Biologists Jg. 132 (2005) Nr. 23, S. 5249 - 5260Online Volltext: dx.doi.org/
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Model systems for human muscoskeletal diseasesIn: Drug Discovery Today: Disease Models Jg. 1 (2004) Nr. 3, S. 359 - 364Online Volltext: dx.doi.org/
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Epigenetic profiling of articular chondrocytes
OARSI World Congress on Osteoarthritis, 29.04.-01.05.2021, Virtual,In: Osteoarthritis and Cartilage Jg. 29 (2021) Nr. Suppl. 1: Abstracts from the Virtual 2021 OARSI World Congress on Osteoarthritis, S. 309Online Volltext: dx.doi.org/ (Open Access) -
Matricellular CCN1 and CCN3 proteins are key regulators at the fetal-maternal interface by promoting cell cycle exit and migration of extravillous trophoblast cellsIn: Placenta Jg. 34 (2013) S. A87Online Volltext: dx.doi.org/
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The transcription factor PRDM5 is involved in endochondral bone formation by regulating collagen I in vivoIn: Bone: Official Journal of the International Bone and Mineral Society (IBMS) Jg. 48 (2011) Nr. Suppl. 2, S. S110Online Volltext: dx.doi.org/
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Murine Limb Explant Cultures to Assess Cartilage DevelopmentIn: Skeletal Development and Repair: Methods and Protocols / Hilton, Matthew J. (Hrsg.) 2021, S. 139 - 149Online Volltext: dx.doi.org/
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Molecular control of cartilage differentiationIn: Cartilage: Volume 1: Physiology and Development / Grässel, Susanne; Aszódi, Attila (Hrsg.) 2016, S. 191 - 213Online Volltext: dx.doi.org/
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Cartilage explant culturesIn: Skeletal Development and Repair: Methods and Protocols 2014, S. 89 - 97Online Volltext: dx.doi.org/
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Chondrocyte proliferation and differentiationIn: Cartilage and bone development and its disorders: 3 Tables / Camacho-Hübner, Cecilia; Nilsson, Ola G.; Sävendahl, Lars; 4th ESPE Advanced Seminar in Developmental Endocrinology, Stockholm, June 30 - July 1, 2010 2011, S. 1 - 11