骨细胞-话题@MedSci

#骨细胞#

200篇内容 | 3527人围观

关注话题

话题活跃用户

#插入话题

插入图片

最新最热

[GetTopicListResponse(id=1495081, encodeId=d1b01495081ab, content=<a href='/topic/show?id=3c0b10182102' target=_blank style='color:#2F92EE;'>#骨细胞#</a>, objectTitle=Orphanet J Rare Dis：人幼稚的分子和细胞特征：疾病侵袭性取决于破骨细胞分化, objectType=article, longId=150205, objectId=46281502055b, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=46281502055b, replyNumber=0, likeNumber=120, createdTime=2018-10-02, rootId=0, userName=jj000004, userId=723c9147696, projectId=1, avatar=null, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=46281502055b, moduleTitle=Orphanet J Rare Dis：人幼稚的分子和细胞特征：疾病侵袭性取决于破骨细胞分化, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=46281502055b)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1495080, encodeId=3d5414950807c, content=<a href='/topic/show?id=3c0b10182102' target=_blank style='color:#2F92EE;'>#骨细胞#</a>, objectTitle=J Periodontal Res：MicroRNA-3064-3p通过靶向dkk 1调节成骨细胞分化, objectType=article, longId=149848, objectId=21091498486f, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=21091498486f, replyNumber=0, likeNumber=67, createdTime=2018-09-29, rootId=0, userName=jj000004, userId=723c9147696, projectId=1, avatar=null, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=21091498486f, moduleTitle=J Periodontal Res：MicroRNA-3064-3p通过靶向dkk 1调节成骨细胞分化, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=21091498486f)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1495079, encodeId=150c14950e94e, content=<a href='/topic/show?id=3c0b10182102' target=_blank style='color:#2F92EE;'>#骨细胞#</a>, objectTitle=Cell Death Dis：伴侣蛋白60维持成骨细胞自噬并通过RPTOR抵消糖皮质激素加重骨质疏松症, objectType=article, longId=149523, objectId=fe1714952362, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=fe1714952362, replyNumber=0, likeNumber=64, createdTime=2018-09-26, rootId=0, userName=jj000004, userId=723c9147696, projectId=1, avatar=null, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=fe1714952362, moduleTitle=Cell Death Dis：伴侣蛋白60维持成骨细胞自噬并通过RPTOR抵消糖皮质激素加重骨质疏松症, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=fe1714952362)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1495078, encodeId=72d814950e8d4, content=<a href='/topic/show?id=3c0b10182102' target=_blank style='color:#2F92EE;'>#骨细胞#</a>, objectTitle=Stem Cells Dev：miRNA-376c-3p或可用于处理颅骨细胞的异常骨形成, objectType=article, longId=149327, objectId=db0614932e2e, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=db0614932e2e, replyNumber=0, likeNumber=51, createdTime=2018-09-23, rootId=0, userName=jj000004, userId=723c9147696, projectId=1, avatar=null, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=db0614932e2e, moduleTitle=Stem Cells Dev：miRNA-376c-3p或可用于处理颅骨细胞的异常骨形成, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=db0614932e2e)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1495077, encodeId=5a6214950e700, content=<a href='/topic/show?id=3c0b10182102' target=_blank style='color:#2F92EE;'>#骨细胞#</a>, objectTitle=Cancer Lett：TMPRSS2:ERG基因融合表达能够调控骨标记和增强前列腺癌骨转移成骨细胞表型, objectType=article, longId=149110, objectId=c33914911057, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=c33914911057, replyNumber=0, likeNumber=73, createdTime=2018-09-20, rootId=0, userName=jj000004, userId=723c9147696, projectId=1, avatar=null, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=c33914911057, moduleTitle=Cancer Lett：TMPRSS2:ERG基因融合表达能够调控骨标记和增强前列腺癌骨转移成骨细胞表型, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=c33914911057)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1495076, encodeId=1b7f14950e692, content=<a href='/topic/show?id=3c0b10182102' target=_blank style='color:#2F92EE;'>#骨细胞#</a>, objectTitle=Sci Rep：Runx2是成骨细胞祖细胞增殖所必需的，通过调节Fgfr2和Fgfr3诱导细胞增殖, objectType=article, longId=148979, objectId=a5e71489e93b, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=a5e71489e93b, replyNumber=0, likeNumber=60, createdTime=2018-09-18, rootId=0, userName=jj000004, userId=723c9147696, projectId=1, avatar=null, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=a5e71489e93b, moduleTitle=Sci Rep：Runx2是成骨细胞祖细胞增殖所必需的，通过调节Fgfr2和Fgfr3诱导细胞增殖, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=a5e71489e93b)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1495075, encodeId=307614950e550, content=<a href='/topic/show?id=3c0b10182102' target=_blank style='color:#2F92EE;'>#骨细胞#</a>, objectTitle=J Exp Clin Cancer Res：低强度脉冲超声对乳腺癌细胞体外诱导破骨细胞形成的抑制作用, objectType=article, longId=148630, objectId=681d148630c9, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=681d148630c9, replyNumber=0, likeNumber=70, createdTime=2018-09-12, rootId=0, userName=jj000004, userId=723c9147696, projectId=1, avatar=null, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=681d148630c9, moduleTitle=J Exp Clin Cancer Res：低强度脉冲超声对乳腺癌细胞体外诱导破骨细胞形成的抑制作用, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=681d148630c9)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1495074, encodeId=7f4214950e4f9, content=<a href='/topic/show?id=3c0b10182102' target=_blank style='color:#2F92EE;'>#骨细胞#</a>, objectTitle=Cell Biosci：全反式维甲酸抑制异二聚体骨形态发生蛋白2/7刺激的破骨细胞生成和再吸收活性, objectType=article, longId=148589, objectId=1c151485899c, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=1c151485899c, replyNumber=0, likeNumber=128, createdTime=2018-09-12, rootId=0, userName=jj000004, userId=723c9147696, projectId=1, avatar=null, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=1c151485899c, moduleTitle=Cell Biosci：全反式维甲酸抑制异二聚体骨形态发生蛋白2/7刺激的破骨细胞生成和再吸收活性, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=1c151485899c)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1495073, encodeId=071014950e385, content=<a href='/topic/show?id=3c0b10182102' target=_blank style='color:#2F92EE;'>#骨细胞#</a>, objectTitle=Nat Commun：成骨细胞Smurf1的抑制促进了与年龄相关的特定骨质疏松症的骨形成, objectType=article, longId=148558, objectId=05bf148558e0, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=05bf148558e0, replyNumber=0, likeNumber=63, createdTime=2018-09-11, rootId=0, userName=jj000004, userId=723c9147696, projectId=1, avatar=null, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=05bf148558e0, moduleTitle=Nat Commun：成骨细胞Smurf1的抑制促进了与年龄相关的特定骨质疏松症的骨形成, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=05bf148558e0)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1495072, encodeId=04e314950e270, content=<a href='/topic/show?id=3c0b10182102' target=_blank style='color:#2F92EE;'>#骨细胞#</a>, objectTitle=J Biomed Mater Res A：含锶纳米结构的SLA钛植体表面改性可影响免疫炎症和成骨细胞的功能, objectType=article, longId=148502, objectId=7cbf148502b2, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=7cbf148502b2, replyNumber=0, likeNumber=55, createdTime=2018-09-10, rootId=0, userName=jj000004, userId=723c9147696, projectId=1, avatar=null, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=7cbf148502b2, moduleTitle=J Biomed Mater Res A：含锶纳米结构的SLA钛植体表面改性可影响免疫炎症和成骨细胞的功能, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=7cbf148502b2)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1495071, encodeId=503314950e1fa, content=<a href='/topic/show?id=3c0b10182102' target=_blank style='color:#2F92EE;'>#骨细胞#</a>, objectTitle=Inflammation：颗粒体蛋白前体通过抗炎、抑制破骨细胞生成和促进成骨促进促进牙周骨缺损的再生, objectType=article, longId=148471, objectId=6e181484e1eb, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=6e181484e1eb, replyNumber=0, likeNumber=59, createdTime=2018-09-10, rootId=0, userName=jj000004, userId=723c9147696, projectId=1, avatar=null, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=6e181484e1eb, moduleTitle=Inflammation：颗粒体蛋白前体通过抗炎、抑制破骨细胞生成和促进成骨促进促进牙周骨缺损的再生, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=6e181484e1eb)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1495070, encodeId=e09914950e03b, content=<a href='/topic/show?id=3c0b10182102' target=_blank style='color:#2F92EE;'>#骨细胞#</a>, objectTitle=Stem Cell Res Ther：CDR1通过miR-7/GDF5/SMAD和p38 MAPK信号通路调节牙周膜干细胞的成骨细胞分化, objectType=article, longId=148396, objectId=2a781483969a, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=2a781483969a, replyNumber=0, likeNumber=39, createdTime=2018-09-09, rootId=0, userName=jj000004, userId=723c9147696, projectId=1, avatar=null, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=2a781483969a, moduleTitle=Stem Cell Res Ther：CDR1通过miR-7/GDF5/SMAD和p38 MAPK信号通路调节牙周膜干细胞的成骨细胞分化, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=2a781483969a)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1495069, encodeId=5bb214950692d, content=<a href='/topic/show?id=3c0b10182102' target=_blank style='color:#2F92EE;'>#骨细胞#</a>, objectTitle=Mech Dev：研究揭示Tricin促进成骨细胞生成的机制, objectType=article, longId=148236, objectId=71c61482363d, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=71c61482363d, replyNumber=0, likeNumber=71, createdTime=2018-09-06, rootId=0, userName=jj000004, userId=723c9147696, projectId=1, avatar=null, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=71c61482363d, moduleTitle=Mech Dev：研究揭示Tricin促进成骨细胞生成的机制, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=71c61482363d)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1495068, encodeId=31a91495068f1, content=<a href='/topic/show?id=3c0b10182102' target=_blank style='color:#2F92EE;'>#骨细胞#</a>, objectTitle=J Cell Physiol：含有半胱天冬酶-1补充结构域（ASC）的凋亡相关斑点样蛋白有助于成骨细胞分化, objectType=article, longId=148229, objectId=07d914822923, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=07d914822923, replyNumber=0, likeNumber=68, createdTime=2018-09-06, rootId=0, userName=jj000004, userId=723c9147696, projectId=1, avatar=null, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=07d914822923, moduleTitle=J Cell Physiol：含有半胱天冬酶-1补充结构域（ASC）的凋亡相关斑点样蛋白有助于成骨细胞分化, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=07d914822923)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1495067, encodeId=1005149506ec4, content=<a href='/topic/show?id=3c0b10182102' target=_blank style='color:#2F92EE;'>#骨细胞#</a>, objectTitle=BMC Musculoskelet Disord：甲状旁腺激素激活的磷脂酶C信号传导可介导快速破骨细胞生成, objectType=article, longId=148047, objectId=8d2d14804ebb, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=8d2d14804ebb, replyNumber=0, likeNumber=63, createdTime=2018-09-03, rootId=0, userName=jj000004, userId=723c9147696, projectId=1, avatar=null, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=8d2d14804ebb, moduleTitle=BMC Musculoskelet Disord：甲状旁腺激素激活的磷脂酶C信号传导可介导快速破骨细胞生成, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=8d2d14804ebb)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1495066, encodeId=13ed149506645, content=<a href='/topic/show?id=3c0b10182102' target=_blank style='color:#2F92EE;'>#骨细胞#</a>, objectTitle=Exp Ther Med：SIN-1诱导肥大软骨细胞成骨基因表达的变化, objectType=article, longId=147138, objectId=4a6614e138a2, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=4a6614e138a2, replyNumber=0, likeNumber=50, createdTime=2018-08-22, rootId=0, userName=jj000004, userId=723c9147696, projectId=1, avatar=null, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=4a6614e138a2, moduleTitle=Exp Ther Med：SIN-1诱导肥大软骨细胞成骨基因表达的变化, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=4a6614e138a2)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1495065, encodeId=d812149506514, content=<a href='/topic/show?id=3c0b10182102' target=_blank style='color:#2F92EE;'>#骨细胞#</a>, objectTitle=Biomed Mater：3D打印聚己内酯支架释放锂可调节巨噬细胞和破骨细胞的反应, objectType=article, longId=146970, objectId=6d521469e040, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=6d521469e040, replyNumber=0, likeNumber=77, createdTime=2018-08-20, rootId=0, userName=jj000004, userId=723c9147696, projectId=1, avatar=null, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=6d521469e040, moduleTitle=Biomed Mater：3D打印聚己内酯支架释放锂可调节巨噬细胞和破骨细胞的反应, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=6d521469e040)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1495064, encodeId=617e149506405, content=<a href='/topic/show?id=3c0b10182102' target=_blank style='color:#2F92EE;'>#骨细胞#</a>, objectTitle=Int J Mol Med：Nkd2促进牙囊干/祖细胞分化为成骨细胞, objectType=article, longId=146825, objectId=ab7a14682548, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=ab7a14682548, replyNumber=0, likeNumber=68, createdTime=2018-08-18, rootId=0, userName=jj000004, userId=723c9147696, projectId=1, avatar=null, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=ab7a14682548, moduleTitle=Int J Mol Med：Nkd2促进牙囊干/祖细胞分化为成骨细胞, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=ab7a14682548)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1495063, encodeId=cd6f149506348, content=<a href='/topic/show?id=3c0b10182102' target=_blank style='color:#2F92EE;'>#骨细胞#</a>, objectTitle=J Bone Miner Res：成骨细胞分化过程中降低β-连环蛋白信号传导有助于骨质减少的治疗, objectType=article, longId=146124, objectId=843614612400, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=843614612400, replyNumber=0, likeNumber=63, createdTime=2018-08-09, rootId=0, userName=jj000004, userId=723c9147696, projectId=1, avatar=null, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=843614612400, moduleTitle=J Bone Miner Res：成骨细胞分化过程中降低β-连环蛋白信号传导有助于骨质减少的治疗, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=843614612400)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1495062, encodeId=87da1495062c3, content=<a href='/topic/show?id=3c0b10182102' target=_blank style='color:#2F92EE;'>#骨细胞#</a>, objectTitle=Mech Dev：Tricin通过调节人间充质干细胞中Wnt/β-catenin信号通路促进成骨细胞生成, objectType=article, longId=145914, objectId=519914591418, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=519914591418, replyNumber=0, likeNumber=65, createdTime=2018-08-06, rootId=0, userName=jj000004, userId=723c9147696, projectId=1, avatar=null, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=519914591418, moduleTitle=Mech Dev：Tricin通过调节人间充质干细胞中Wnt/β-catenin信号通路促进成骨细胞生成, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=519914591418)], followStatus=false, userIsMember=false, type=1, lengthMark=0)] 梅斯话题小助手

骨细胞

2020-05-29

jj000004 (审核中...)

前往app查看评论内容

#骨细胞#

Orphanet J Rare Dis：人幼稚的分子和细胞特征：疾病侵袭性取决于破骨细胞分化

2018-10-02

jj000004 (审核中...)

前往app查看评论内容

#骨细胞#

J Periodontal Res：MicroRNA-3064-3p通过靶向dkk 1调节成骨细胞分化

2018-09-29

jj000004 (审核中...)

前往app查看评论内容

#骨细胞#

Cell Death Dis：伴侣蛋白60维持成骨细胞自噬并通过RPTOR抵消糖皮质激素加重骨质疏松症

2018-09-26

jj000004 (审核中...)

前往app查看评论内容

#骨细胞#

Stem Cells Dev：miRNA-376c-3p或可用于处理颅骨细胞的异常骨形成

2018-09-23

jj000004 (审核中...)

前往app查看评论内容

#骨细胞#

Cancer Lett：TMPRSS2:ERG基因融合表达能够调控骨标记和增强前列腺癌骨转移成骨细胞表型

2018-09-20

jj000004 (审核中...)

前往app查看评论内容

#骨细胞#

Sci Rep：Runx2是成骨细胞祖细胞增殖所必需的，通过调节Fgfr2和Fgfr3诱导细胞增殖

2018-09-18

jj000004 (审核中...)

前往app查看评论内容

#骨细胞#

J Exp Clin Cancer Res：低强度脉冲超声对乳腺癌细胞体外诱导破骨细胞形成的抑制作用

2018-09-12

jj000004 (审核中...)

前往app查看评论内容

#骨细胞#

Cell Biosci：全反式维甲酸抑制异二聚体骨形态发生蛋白2/7刺激的破骨细胞生成和再吸收活性

2018-09-12

jj000004 (审核中...)

前往app查看评论内容

#骨细胞#

Nat Commun：成骨细胞Smurf1的抑制促进了与年龄相关的特定骨质疏松症的骨形成

2018-09-11

jj000004 (审核中...)

前往app查看评论内容

#骨细胞#

J Biomed Mater Res A：含锶纳米结构的SLA钛植体表面改性可影响免疫炎症和成骨细胞的功能

2018-09-10

jj000004 (审核中...)

前往app查看评论内容

#骨细胞#

Inflammation：颗粒体蛋白前体通过抗炎、抑制破骨细胞生成和促进成骨促进促进牙周骨缺损的再生

2018-09-10

jj000004 (审核中...)

前往app查看评论内容

#骨细胞#

Stem Cell Res Ther：CDR1通过miR-7/GDF5/SMAD和p38 MAPK信号通路调节牙周膜干细胞的成骨细胞分化

2018-09-09

jj000004 (审核中...)

前往app查看评论内容

#骨细胞#

Mech Dev：研究揭示Tricin促进成骨细胞生成的机制

2018-09-06

jj000004 (审核中...)

前往app查看评论内容

#骨细胞#

J Cell Physiol：含有半胱天冬酶-1补充结构域（ASC）的凋亡相关斑点样蛋白有助于成骨细胞分化

2018-09-06

jj000004 (审核中...)

前往app查看评论内容

#骨细胞#

BMC Musculoskelet Disord：甲状旁腺激素激活的磷脂酶C信号传导可介导快速破骨细胞生成

2018-09-03

jj000004 (审核中...)

前往app查看评论内容

#骨细胞#

Exp Ther Med：SIN-1诱导肥大软骨细胞成骨基因表达的变化

2018-08-22

jj000004 (审核中...)

前往app查看评论内容

#骨细胞#

Biomed Mater：3D打印聚己内酯支架释放锂可调节巨噬细胞和破骨细胞的反应

2018-08-20

jj000004 (审核中...)

前往app查看评论内容

#骨细胞#

Int J Mol Med：Nkd2促进牙囊干/祖细胞分化为成骨细胞

2018-08-18

jj000004 (审核中...)

前往app查看评论内容

#骨细胞#

J Bone Miner Res：成骨细胞分化过程中降低β-连环蛋白信号传导有助于骨质减少的治疗

2018-08-09

jj000004 (审核中...)

前往app查看评论内容

#骨细胞#

Mech Dev：Tricin通过调节人间充质干细胞中Wnt/β-catenin信号通路促进成骨细胞生成

2018-08-06

科室
- - 订阅+
  - 更多科室
工具
服务