Results 171 to 180 of about 983,576 (215)
Does Microwave Exposure at Different Doses in the Pre/Postnatal Period Affect Growing Rat Bone Development? [PDF]
Physiol ResKaradayi A +6 more
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Annual Review of Cell and Developmental Biology, 2000
▪ Abstract Early development of the vertebrate skeleton depends on genes that pattern the distribution and proliferation of cells from cranial neural crest, sclerotomes, and lateral plate mesoderm into mesenchymal condensations at sites of future skeletal elements.
B R, Olsen, A M, Reginato, W, Wang
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▪ Abstract Early development of the vertebrate skeleton depends on genes that pattern the distribution and proliferation of cells from cranial neural crest, sclerotomes, and lateral plate mesoderm into mesenchymal condensations at sites of future skeletal elements.
B R, Olsen, A M, Reginato, W, Wang
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Best Practice & Research Clinical Endocrinology & Metabolism, 2002
Puberty has a key role for bone development. Skeletal mass approximately doubles at the end of adolescence. The main determinants of pubertal gain of bone mass are the sex steroids, growth hormone and insulin-like growth factors (by their effects on bone and muscle mass), 1,25-dihydroxyvitamin D (by stimulating calcium absorption and retention) and ...
Giuseppe, Saggese +2 more
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Puberty has a key role for bone development. Skeletal mass approximately doubles at the end of adolescence. The main determinants of pubertal gain of bone mass are the sex steroids, growth hormone and insulin-like growth factors (by their effects on bone and muscle mass), 1,25-dihydroxyvitamin D (by stimulating calcium absorption and retention) and ...
Giuseppe, Saggese +2 more
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Current Opinion in Genetics & Development, 1998
A factor fundamental to bone formation has been identified. Gene targeting shows that core-binding factor alpha 1 (Cbfa1) plays an essential role in bone formation and osteoblast differentiation. Thus, it is now possible to begin examining the molecular mechanism of bone formation--especially osteoblast differentiation.
T, Komori, T, Kishimoto
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A factor fundamental to bone formation has been identified. Gene targeting shows that core-binding factor alpha 1 (Cbfa1) plays an essential role in bone formation and osteoblast differentiation. Thus, it is now possible to begin examining the molecular mechanism of bone formation--especially osteoblast differentiation.
T, Komori, T, Kishimoto
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Development of Cartilage and Bone
2004Publisher Summary This chapter discusses about the development of cartilage and bone. The skeletons of vertebrates are remarkably similar. Centuries of studies of bone morphology and the fact that bones are preserved as fossils has revealed that identical bones form much of the skull, vertebrae, and appendicular skeleton in fish, amphibians, reptiles,
Yashar, Javidan, Thomas F, Schilling
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BioEssays, 1987
AbstractAlthough bone development during embryogenesis and bone repair after injury have a number of features which appear similar, they are distinctly different processes which involve separate controlling elements and cuing parameters. Repair of bone is influenced by bioactive factors which reside in bone itself; some of these factors are not present
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AbstractAlthough bone development during embryogenesis and bone repair after injury have a number of features which appear similar, they are distinctly different processes which involve separate controlling elements and cuing parameters. Repair of bone is influenced by bioactive factors which reside in bone itself; some of these factors are not present
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Bone Development: Overview of Bone Cells and Signaling
Current Osteoporosis Reports, 2011Vertebrates evolved elaborating a structure made up of more than 200 bones and cartilages articulated with one another to form the skeleton, through which locomotion, organ protection, lodging of hematopoiesis, and mineral homeostasis are allowed. Skeletogenesis starts at the fetal stage, along with marrow hematopoiesis, and evolves postnatally through
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JAMA, 2010
Genetic and Epigenetic Aspects of Bone Development.- Tissue Interactions in Long Bone Development.- The Epiphyseal Growth Plate.- Hedgehog Signaling in Growth Plate and Bone Development.- Role of microRNA in Skeleton Development.- FGF/FGFR Signaling in Skeletal Dysplasias.- The Role of Hypoxia-Induced Factors.- BMP Signaling in Skeletogenesis.- Wnt ...
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Genetic and Epigenetic Aspects of Bone Development.- Tissue Interactions in Long Bone Development.- The Epiphyseal Growth Plate.- Hedgehog Signaling in Growth Plate and Bone Development.- Role of microRNA in Skeleton Development.- FGF/FGFR Signaling in Skeletal Dysplasias.- The Role of Hypoxia-Induced Factors.- BMP Signaling in Skeletogenesis.- Wnt ...
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Role of CSF-1 in bone and bone marrow development
Molecular Reproduction and Development, 1997There is a close interaction between the processes involved in osteogenesis and hemopoiesis. In developing bone, the osteoclasts, cells of hemopoietic origin, resorb and invade the calcified cartilage rudiment. As a result, the primitive marrow cavity is formed and hemopoiesis initiates.
Cecchini MG +4 more
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Taurine, Bone Growth and Bone Development
Current Nutrition & Food Science, 2008Taurine (2-Amino ethane sulfonic acid) is a naturally occurring sulphur amino acid, found in several mammalian and non mammalian tissues. Taurine is believed to be involved in several life processes. Its deficiency is a cause of concern in developing abnormalities in many organs like eye, heart, kidney, brain etc during developmental stages and even ...
Sung-Jin Kim, Hyeon Lee, Ramesh Gupta
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