Results 341 to 350 of about 109,289 (351)
Some of the next articles are maybe not open access.
Journal of Cellular Biochemistry, 1994
AbstractIn biological research, new ideas arise and quickly spread to encompass the entire field. Thus, the evolution of molecular biology has significantly changed our methods of approaching our research. A similar far‐reaching finding has been the advent of radical reactions into biology.
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AbstractIn biological research, new ideas arise and quickly spread to encompass the entire field. Thus, the evolution of molecular biology has significantly changed our methods of approaching our research. A similar far‐reaching finding has been the advent of radical reactions into biology.
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Bone Cells Required for Osteoclastic Resorption but Not for Osteoclastic Differentiation
Biochemical and Biophysical Research Communications, 1996It is generally considered that osteoblastic cells are essential for osteoclast formation. We tested the ability of hemopoietic tissue to differentiate osteoclastic characteristics in the absence of osteoblastic cells. We found that large numbers of calcitonin-receptor positive (CTRP) cells can be induced by prostaglandin E2 and 1,25(OH)2 vitamin D3 ...
A.C. Gallagher, T.J. Chambers, J. Owens
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2013
Osteoclasts are the principal, perhaps only, cells capable of destroying bone. They are highly motile cells, usually multinucleated, and of hemopoietic origin. Osteoclasts excavate characteristic pits and trails on bone by pumping protons to solubilize the mineral component (hydroxyapatite) and secreting cathepsin K, an enzyme that partly degrades the ...
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Osteoclasts are the principal, perhaps only, cells capable of destroying bone. They are highly motile cells, usually multinucleated, and of hemopoietic origin. Osteoclasts excavate characteristic pits and trails on bone by pumping protons to solubilize the mineral component (hydroxyapatite) and secreting cathepsin K, an enzyme that partly degrades the ...
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2011
Publisher Summary One of the integral cell types contributes significantly to regulation of bone mass; osteoblasts, of mesenchymal origin, are transducers of numerous endocrine and paracrine signals. Separately they secrete and calcify the unique bone matrix, which is degraded by myeloid derived osteoclasts.
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Publisher Summary One of the integral cell types contributes significantly to regulation of bone mass; osteoblasts, of mesenchymal origin, are transducers of numerous endocrine and paracrine signals. Separately they secrete and calcify the unique bone matrix, which is degraded by myeloid derived osteoclasts.
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Bisphosphonates promote apoptosis in murine osteoclasts in vitro and in vivo
Journal of Bone and Mineral Research, 1995D. Hughes +7 more
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Osteoclasts degrade endosteal components and promote mobilization of hematopoietic progenitor cells
Nature Network Boston, 2006O. Kollet +11 more
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Estrogen promotes apoptosis of murine osteoclasts mediated by TGF–β
Nature Network Boston, 1996D. Hughes +5 more
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Microelectrode studies on the acid microenvironment beneath adherent macrophages and osteoclasts.
Experimental Cell Research, 1988I. Silver, R. Murrills, D. Etherington
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