Abstract
N(6)-methyladenosine RNA methylation (m(6))A is one of the most common and widespread RNA modifications in eukaryotic cells. m(6)A plays a crucial role in the regulation of pathophysiological processes of eukaryotes. Three types of m(6)A regulators, including methyltransferases, demethylases and m(6)A-binding proteins, are involved in the reversible epigenetic modification of m(6)A. Bone is a vital organ with irreplaceable functions of movement, haematopoiesis, and protection of other organs. Its physiological homeostasis is mainly determined by the synergy of corresponding cells such as bone marrow derived stem cells, osteoblasts, and osteoclasts. Once the physiological equilibrium is broken, the bones will transform into a pathological state, resulting with diseases such as osteoporosis, osteoarthritis, rheumatoid arthritis, and osteosarcoma. Here, we review the composition of m(6)A and its regulation mechanism in bone physiology and pathology.