Skeletal biology, fracture healing, and mechanotransduction
Our group has a strong interest in applying computational and experimental tools to understand aspects of skeletal biology including the molecular basis of fracture healing. The experimental methods are performed within the larger group of Stefan Mundlos. We are project A1 in the DFG-supported collaborative research center (SFB) 760.Team
Peter N. RobinsonClaus-Eric Ott
Johannes Grünhagen
Publications
2009
Ott CE, Bauer S, Manke T, Ahrens S, Rödelsperger C, Grünhagen J, Kornak U, Duda G, Mundlos S, Robinson PN (2009) Promiscuous and Depolarization-Induced Immediate-Early Response Genes are Induced by Mechanical Strain of Osteoblasts.
J Bone Miner Res. 2009 Mar 3. [pubmed]
J Bone Miner Res. 2009 Mar 3. [pubmed]
Bieler FH, Ott CE, Thompson MS, Seidel R, Ahrens S, Epari DR, Wilkening U, Schaser KD, Mundlos S, Duda GN (2009) Biaxial cell stimulation: A mechanical validation.
J Biomech. 2009 May 14. [Epub ahead of print] [pubmed]
J Biomech. 2009 May 14. [Epub ahead of print] [pubmed]
2006
Hecht J, Kuhl H, Haas SA, Bauer S, Poustka AJ, Lienau J, Schell H, Stiege AC, Seitz V, Reinhardt R, Duda GN, Mundlos S, Robinson PN (2006) Gene identification and analysis of transcripts differentially regulated in fracture healing by EST sequencing in the domestic sheep.
BMC Genomics. 7:172. [pubmed]
BMC Genomics. 7:172. [pubmed]