scholarly article | Q13442814 |
P50 | author | Ola Nilsson | Q51897263 |
P2093 | author name string | Jeffrey Baron | |
Julian C K Lui | |||
Anita Hegde | |||
Anenisia C Andrade | |||
Patricia Forcinito | |||
WeiPing Chen | |||
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Exploration, normalization, and summaries of high density oligonucleotide array probe level data | Q27861098 | ||
Chondrodysplasia and neurological abnormalities in ATF-2-deficient mice | Q28271799 | ||
MEF2C transcription factor controls chondrocyte hypertrophy and bone development | Q28505927 | ||
Thyroid hormone interacts with the Wnt/beta-catenin signaling pathway in the terminal differentiation of growth plate chondrocytes | Q28576924 | ||
Rat maf related genes: specific expression in chondrocytes, lens and spinal cord | Q28581230 | ||
Gli3 acts as a repressor downstream of Ihh in regulating two distinct steps of chondrocyte differentiation | Q28591169 | ||
Indian hedgehog stimulates periarticular chondrocyte differentiation to regulate growth plate length independently of PTHrP | Q28592577 | ||
Fibroblast growth factor expression in the postnatal growth plate | Q29465460 | ||
The distribution of Notch receptors and their ligands during articular cartilage development | Q30959291 | ||
Microarray analysis of proliferative and hypertrophic growth plate zones identifies differentiation markers and signal pathways | Q33209716 | ||
The transcription factor ATF3 is upregulated during chondrocyte differentiation and represses cyclin D1 and A gene transcription | Q33258030 | ||
Regulation of growth plate chondrogenesis by bone morphogenetic protein-2. | Q33930375 | ||
The transcription factors L-Sox5 and Sox6 are essential for cartilage formation | Q33955940 | ||
Sox5 and Sox6 are needed to develop and maintain source, columnar, and hypertrophic chondrocytes in the cartilage growth plate | Q33976319 | ||
BMP signaling stimulates cellular differentiation at multiple steps during cartilage development | Q34212576 | ||
FGF signaling pathways in endochondral and intramembranous bone development and human genetic disease | Q34702208 | ||
Fundamental limits on longitudinal bone growth: growth plate senescence and epiphyseal fusion. | Q35893879 | ||
Oncostatin M: a pleiotropic cytokine in the central nervous system | Q35902549 | ||
Wnt gene expression in the post-natal growth plate: regulation with chondrocyte differentiation | Q35928985 | ||
Effects of estrogen on growth plate senescence and epiphyseal fusion | Q36240179 | ||
Role of Runx proteins in chondrogenesis | Q36359365 | ||
The nuclear factor of activated T cells (NFAT) transcription factor NFATp (NFATc2) is a repressor of chondrogenesis | Q36375852 | ||
Catch-up growth after hypothyroidism is caused by delayed growth plate senescence | Q36513120 | ||
Hypoxia and HIF-1alpha in chondrogenesis | Q36532509 | ||
Mechanism of vitamin D receptor action | Q36532531 | ||
BMP signaling in the cartilage growth plate. | Q36659526 | ||
Inhibition of beta-catenin signaling causes defects in postnatal cartilage development | Q37085648 | ||
Transcriptional regulators of chondrocyte hypertrophy. | Q37188794 | ||
Eph receptors and ephrin signaling pathways: a role in bone homeostasis | Q37271460 | ||
Notch pathway regulation of chondrocyte differentiation and proliferation during appendicular and axial skeleton development. | Q37321215 | ||
Nuclear factor E2 p45-related factor 2 negatively regulates chondrogenesis. | Q40222228 | ||
Regulation of Indian hedgehog mRNA levels in chondrocytic cells by ERK1/2 and p38 mitogen-activated protein kinases | Q40511556 | ||
The short stature homeodomain protein SHOX induces cellular growth arrest and apoptosis and is expressed in human growth plate chondrocytes | Q40555569 | ||
C-type natriuretic peptide regulates endochondral bone growth through p38 MAP kinase-dependent and -independent pathways | Q42861749 | ||
p38 MAP kinase signalling is required for hypertrophic chondrocyte differentiation | Q43003484 | ||
Ribosomal 18S RNA prevails over glyceraldehyde-3-phosphate dehydrogenase and beta-actin genes as internal standard for quantitative comparison of mRNA levels in invasive and noninvasive human melanoma cell subpopulations | Q43690072 | ||
Characterization of PGE(2) receptors (EP) and their role as mediators of 1alpha,25-(OH)(2)D(3) effects on growth zone chondrocytes | Q43762834 | ||
Transforming growth factor-beta1 regulation of growth zone chondrocytes is mediated by multiple interacting pathways | Q44026854 | ||
Selection of an internal control gene for quantitation of mRNA in colonic tissues | Q44293510 | ||
Growth factor regulation of human growth plate chondrocyte proliferation in vitro | Q44849563 | ||
PGE2 inhibits chondrocyte differentiation through PKA and PKC signaling. | Q45071054 | ||
p53 influences mice skeletal development. | Q46292004 | ||
Dlx5 regulates chondrocyte differentiation at multiple stages | Q47719052 | ||
Cellular Pattern of Insulin-Like Growth Factor-I (IGF-I) and IGF-I Receptor Gene Expression in the Developing and Mature Ovarian Follicle | Q50796474 | ||
Improvement of non-radioactive in situ hybridization in human airway tissues: use of PCR-generated templates for synthesis of probes and an antibody sandwich technique for detection of hybridization. | Q51723800 | ||
A microarray approach for comparative expression profiling of the discrete maturation zones of mouse growth plate cartilage. | Q51960849 | ||
Transforming growth factor-beta and Wnt signals regulate chondrocyte differentiation through Twist1 in a stage-specific manner. | Q51978877 | ||
Gradients in bone morphogenetic protein-related gene expression across the growth plate. | Q51990195 | ||
Depletion of resting zone chondrocytes during growth plate senescence. | Q52020770 | ||
The AP1 transcription factor Fra2 is required for efficient cartilage development. | Q52086192 | ||
The role of the resting zone in growth plate chondrogenesis. | Q52121235 | ||
C-Jun and JunD suppress maturation of chondrocytes. | Q52194952 | ||
The Sry-related gene Sox9 is expressed during chondrogenesis in mouse embryos. | Q52211686 | ||
Dexamethasone increases growth hormone receptor messenger ribonucleic acid levels in liver and growth plate. | Q52214434 | ||
Spatial and temporal regulation of GH-IGF-related gene expression in growth plate cartilage. | Q64888784 | ||
Effect of transforming growth factor beta on cell proliferation and glycosaminoglycan synthesis by rabbit growth-plate chondrocytes in culture | Q67919059 | ||
PDGF BB stimulates proliferation and differentiation in cultured chondrocytes from rat rib growth plate | Q68078550 | ||
Cell kinetics of growth cartilage in the rat tibia. II. Measurements during ageing | Q69390494 | ||
Serum fractions and related agonists with calcium-mobilizing activity in the bovine growth plate chondrocyte | Q72170467 | ||
Global analyses of gene expression in early experimental osteoarthritis | Q80388445 | ||
Studies on the role of Dlx5 in regulation of chondrocyte differentiation during endochondral ossification in the developing mouse limb | Q80445257 | ||
P433 | issue | 5 | |
P304 | page(s) | 1380-1390 | |
P577 | publication date | 2010-01-22 | |
P1433 | published in | Bone | Q15755003 |
P1476 | title | Spatial and temporal regulation of gene expression in the mammalian growth plate | |
P478 | volume | 46 |
Q51282410 | Amomum villosum induces longitudinal bone growth in adolescent female rats. |
Q37711793 | Copy number variants in patients with short stature. |
Q34536372 | Copy number variants in short children born small for gestational age. |
Q36184071 | Different Roles of GRP78 on Cell Proliferation and Apoptosis in Cartilage Development |
Q64945101 | Differential aging of growth plate cartilage underlies differences in bone length and thus helps determine skeletal proportions. |
Q33815652 | EZH1 and EZH2 promote skeletal growth by repressing inhibitors of chondrocyte proliferation and hypertrophy |
Q93257661 | Evidence That Rat Chondrocytes Can Differentiate Into Perichondrial Cells |
Q33901266 | Evidence that estrogen hastens epiphyseal fusion and cessation of longitudinal bone growth by irreversibly depleting the number of resting zone progenitor cells in female rabbits |
Q88089412 | Explore on the effect of ATF6 on cell growth and apoptosis in cartilage development |
Q33961397 | Gene expression profiling reveals similarities between the spatial architectures of postnatal articular and growth plate cartilage. |
Q64098554 | Genetic regulation of linear growth |
Q46339941 | Growth plate expression profiling: Large and small breed dogs provide new insights in endochondral bone formation. |
Q36169614 | Growth plate senescence and catch-up growth |
Q51897199 | Growth-inhibiting conditions slow growth plate senescence. |
Q39144038 | How long bones grow children: Mechanistic paths to variation in human height growth |
Q86757592 | Human monoclonal antibody fragments targeting matrilin-3 in growth plate cartilage |
Q49489050 | Mir-374-5p, mir-379-5p, and mir-503-5p regulate proliferation and hypertrophic differentiation of growth plate chondrocytes in male rats |
Q57168455 | Molecular characterization of physis tissue by RNA sequencing |
Q36361399 | Novel microcephalic primordial dwarfism disorder associated with variants in the centrosomal protein ninein |
Q37014367 | Physical exercise associated with improved BMD independently of sex and vitamin D levels in young adults |
Q34046963 | Recent research on the growth plate: Recent insights into the regulation of the growth plate |
Q38993114 | Regulation of body growth by microRNAs |
Q33632336 | Spatial regulation of bone morphogenetic proteins (BMPs) in postnatal articular and growth plate cartilage |
Q35529646 | Spatial regulation of gene expression during growth of articular cartilage in juvenile mice. |
Q36375808 | Synthesizing genome-wide association studies and expression microarray reveals novel genes that act in the human growth plate to modulate height |
Q36945478 | The Biology of Stature |
Q34026175 | Transcriptional profiling of chondrodysplasia growth plate cartilage reveals adaptive ER-stress networks that allow survival but disrupt hypertrophy |
Q26799185 | VKORC1 and VKORC1L1: Why do Vertebrates Have Two Vitamin K 2,3-Epoxide Reductases? |
Q36298468 | XBP1S associates with RUNX2 and regulates chondrocyte hypertrophy |
Q35867956 | XBP1S, a BMP2-inducible transcription factor, accelerates endochondral bone growth by activating GEP growth factor |
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