%D8%AE%D9%84%D9%8A%D8%A9_%D8%B9%D8%B8%D9%85%D9%8A%D8%A9Oste%C3%B2citCategory:OsteocytesOsteocytOsteozytOsteocyteOsteocitoOsteozito%D8%A7%D8%B3%D8%AA%D8%AE%D9%88%D8%A7%D9%86%E2%80%8C%DB%8C%D8%A7%D8%AE%D8%AA%D9%87LuusoluOst%C3%A9ocyteOsteocitoOsteyositOsteositOsteocita%E9%AA%A8%E7%B4%B0%E8%83%9E%D0%9E%D1%81%D1%82%D0%B5%D0%BE%D1%86%D0%B8%D1%82OsteocytOsteocytOste%C3%B3cito%D0%9E%D1%81%D1%82%D0%B5%D0%BE%D1%86%D0%B8%D1%82%D1%8BOsteocytOsteocitOsteocytOsteosit%D0%9E%D1%81%D1%82%D0%B5%D0%BE%D1%86%D0%B8%D1%82T%E1%BA%BF_b%C3%A0o_x%C6%B0%C6%A1ngQ913236%E9%AA%A8%E7%BB%86%E8%83%9E
about
sameAs
P186
P460
Disruption of the Cx43/miR21 pathway leads to osteocyte apoptosis and increased osteoclastogenesis with aging.Single-Limb Irradiation Induces Local and Systemic Bone Loss in a Murine Model.Inhibition of osteocyte apoptosis prevents the increase in osteocytic receptor activator of nuclear factor κB ligand (RANKL) but does not stop bone resorption or the loss of bone induced by unloading.Defective cancellous bone structure and abnormal response to PTH in cortical bone of mice lacking Cx43 cytoplasmic C-terminus domain.Osteocytes and Skeletal PathophysiologySystemic Control of Bone Homeostasis by FGF23 Signaling.Resorption controls bone anabolism driven by parathyroid hormone (PTH) receptor signaling in osteocytesNeonatal iron deficiency causes abnormal phosphate metabolism by elevating FGF23 in normal and ADHR mice.High bone mass in mice lacking Cx37 because of defective osteoclast differentiation.Conditional Deletion of Murine Fgf23: Interruption of the Normal Skeletal Responses to Phosphate Challenge and Rescue of Genetic Hypophosphatemia.Scaling of statically derived osteocyte lacunae in extant birds: implications for palaeophysiological reconstructionEffect of a Single Injection of Benidipine-Impregnated Biodegradable Microcarriers on Bone and Gingival Healing at the Tooth Extraction SocketZoledronate Enhances Osteocyte-Mediated Osteoclast Differentiation by IL-6/RANKL AxismiR-29b-3p regulated osteoblast differentiation via regulating IGF-1 secretion of mechanically stimulated osteocytesIn Vitro Co-culture Model of Primary Human Osteoblasts and Osteocytes in Collagen GelsThe Role of Osteocytes in Inflammatory Bone Loss
P921
Q33638902-070CCE07-79F4-461D-88EC-9058878E12B3Q35772319-6120EFEF-B9A3-405D-8EA6-E5E3FCA4E71FQ35905296-001521CF-3854-42F4-904C-242B038F7A54Q36269032-29297228-2DF4-48C3-8DCE-BC08FC863656Q36357606-FC85667A-457A-417D-8A00-002584564D34Q36843642-BCEBD259-7F8A-4DA3-B76A-1E83F3E1063EQ37226223-7AD6B4BE-1689-49B7-A6A6-DF22BF70D420Q37589035-57349738-A657-4123-BF38-D5713BB67209Q37653316-CDE2DE97-422A-40B4-B85E-25FDA1E9D41CQ41832467-A184E97A-A43C-4DAD-9938-097941BD0BA4Q64012969-1BAB9C54-6E3F-4F25-967B-F3F2C02738A6Q64060453-77213748-07D6-4CE8-82BF-876DA48630A6Q64062195-FD0CE0BB-8595-4D83-BB7A-C19B2F3A965DQ64092323-6999EB84-4453-4DA3-AEB4-17856927F32CQ64251309-12DD6069-B309-4FAC-8A5F-17D9A9D49160Q64268866-C8C714C3-93EB-4ED8-931B-6ABE6DD0AC74
P921
description
Hezurreko zelula, osteoblasto batetik garatzen dena
@eu
bone cell with single core
@en
cellula più abbondante nel tessuto osseo
@it
cellule du tissu osseux
@fr
célula del tejido óseo
@es
einkernige Knochenzellen
@de
клетки костной ткани позвоночных животных и человека
@ru
name
Osteocit
@sl
Osteocito
@gl
Osteocyt
@cs
Osteocyt
@pl
Osteocyt
@sk
Osteocyt
@sv
Osteosit
@id
Osteosit
@tr
Osteosyytti
@fi
Osteozito
@eu
type
label
Osteocit
@sl
Osteocito
@gl
Osteocyt
@cs
Osteocyt
@pl
Osteocyt
@sk
Osteocyt
@sv
Osteosit
@id
Osteosit
@tr
Osteosyytti
@fi
Osteozito
@eu
altLabel
Knochenzelle
@de
Luusolu
@fi
Osteociti
@it
Osteocitos
@es
Osteocyte
@fr
Osteocyty
@pl
Osteócitos
@pt
Остеоцит
@ru
Остеоцити
@uk
골세포
@ko
prefLabel
Osteocit
@sl
Osteocito
@gl
Osteocyt
@cs
Osteocyt
@pl
Osteocyt
@sk
Osteocyt
@sv
Osteosit
@id
Osteosit
@tr
Osteosyytti
@fi
Osteozito
@eu
P486
P6366
P646
P1402
P1417
science/osteocyte
P1694
H2.00.03.7.00003
P1705
osteocytus
@la
P373
Osteocytes
P3827
osteocytes