Osteoclasts recycle via osteomorphs during RANKL-stimulated bone resorptionTracking osteoclasts during cycles of fission and fusion reveals a transcriptionally distinct “osteomorph” population that are fusion competent, motile, and capable of forming osteoclasts that resorb bone.Tracking osteoclasts during cycles of fission and fusion reveals a transcriptionally distinct “osteomorph” population that are fusion competent, motile, and capable of forming osteoclasts that resorb bone.Michelle M. McDonald, Weng Hua Khoo, Pei Ying Ng, Ya Xiao, Jad Zamerli, Peter Thatcher, Wunna Kyaw, Karrnan Pathmanandavel, Abigail K. Grootveld, Imogen Moran, Danyal Butt, Akira Nguyen, Sean Warren, Maté Biro, Natalie C. Butterfield, Siobhan E. Guilfoyle, Davide Komla-Ebri, Michael R.G. Dack, Hannah F. Dewhurst, John G. Logan, Yongxiao Li, Sindhu T. Mohanty, Niall Byrne, Rachael L. Terry, Marija K. Simic, Ryan Chai, Julian M.W. Quinn, Scott E. Youlten, Jessica A. Pettitt, David Abi-Hanna, Rohit Jain, Wolfgang Weninger, Mischa Lundberg, Shuting Sun, Frank H. Ebetino, Paul Timpson, Woei Ming Lee, Paul A. Baldock, Michael J. Rogers, Robert Brink, Graham R. Williams, J.H. Duncan Bassett, John P. Kemp, Nathan J. Pavlos, Peter I. Croucher, Tri Giang Phanhttps://secure.jbs.elsevierhealth.com/action/getSharedSiteSession?redirect=https%3A%2F%2Fwww.cell.com%2Fcell%2Ffulltext%2FS0092-8674%2821%2900152-5%3Frss%3Dyes&rc=0http://www.cell.com/cell/inpress.rssCellCell RSS feed.Wireless News CampaignFebruary 26, 2021

Powered by WPeMatico