Add to ORKGDevelopmental osteogenesis and pathologies of mineralized tissues are areas of intense investigations in the mammalian field, but different from other areas of organ formation and developmental biology, zebrafish have been somewhat slow in joining the area of bone research. In recent years, however, genetic screens have provided a number of exciting mutants, and transgenic lines have been developed that permit visualization of osteoblasts and osteoclasts in vivo. We here review some of the recent literature and provide examples where insights from studies in zebrafish have complemented the information available from mammalian models or clinical studies. Furthermore, we provide a comparative overview about different forms of bone within the ...
Resorption and remodelling of skeletal tissues is required for development and growth, mechanical ad...
The advancement of human genomics has revolutionized our understanding of the genetic architecture o...
Osteogenesis imperfecta (OI) is a hereditary brittle bone disorder that is mostly (>90%) caused by d...
Developmental osteogenesis and pathologies of mineralized tissues are areas of intense investigation...
Developmental osteogenesis and pathologies of mineralized tissues are areas of intense investigation...
For many years bone research has been mainly performed in mice, chicken, cell culture systems or hum...
For many years bone research has been mainly performed in mice, chicken, cell culture systems, or hu...
For many years bone research has been mainly performed in mice, chicken, cell culture systems, or hu...
Animal models are essential tools for addressing fundamental scientific questions about skeletal dis...
In the last decade, several examples have been produced by scientific literature about zebrafish as ...
Small teleost fish such as zebrafish and medaka are increasingly studied as models for human skeleta...
Fragile bone disorders (FBD) are characterized by increased fracture risks due to insufficient or fr...
In recent decades, many studies using the zebrafish model organism have been performed. Zebrafish, p...
AbstractBone modeling is the central system controlling the formation of bone including bone growth ...
Animal models are essential tools for addressing fundamental scientific questions about skeletal dis...
Resorption and remodelling of skeletal tissues is required for development and growth, mechanical ad...
The advancement of human genomics has revolutionized our understanding of the genetic architecture o...
Osteogenesis imperfecta (OI) is a hereditary brittle bone disorder that is mostly (>90%) caused by d...
Developmental osteogenesis and pathologies of mineralized tissues are areas of intense investigation...
Developmental osteogenesis and pathologies of mineralized tissues are areas of intense investigation...
For many years bone research has been mainly performed in mice, chicken, cell culture systems or hum...
For many years bone research has been mainly performed in mice, chicken, cell culture systems, or hu...
For many years bone research has been mainly performed in mice, chicken, cell culture systems, or hu...
Animal models are essential tools for addressing fundamental scientific questions about skeletal dis...
In the last decade, several examples have been produced by scientific literature about zebrafish as ...
Small teleost fish such as zebrafish and medaka are increasingly studied as models for human skeleta...
Fragile bone disorders (FBD) are characterized by increased fracture risks due to insufficient or fr...
In recent decades, many studies using the zebrafish model organism have been performed. Zebrafish, p...
AbstractBone modeling is the central system controlling the formation of bone including bone growth ...
Animal models are essential tools for addressing fundamental scientific questions about skeletal dis...
Resorption and remodelling of skeletal tissues is required for development and growth, mechanical ad...
The advancement of human genomics has revolutionized our understanding of the genetic architecture o...
Osteogenesis imperfecta (OI) is a hereditary brittle bone disorder that is mostly (>90%) caused by d...