Literature DB >> 16390320

Role of Runx proteins in chondrogenesis.

Carolina A Yoshida1, Toshihisa Komori.   

Abstract

The mammalian RUNX protein family comprises three transcription factorsRUNX1, RUNX2, and RUNX3. RUNX1 is involved in hematopoiesis, RUNX2 has multiple roles in osteogenesis and RUNX3 is associated with neural and gut development. In addition, all RUNX proteins are expressed during chondrogenesis, the process by which cartilage is formed. This review describes the involvement of Runx proteins in chondrogenesis, delineating their expression pattern and emphasizing their active roles in mesenchymal condensation, chondrocyte proliferation, and chondrocyte maturation. It also highlights how Runx proteins regulate transcription of target genes and how Runx proteins are regulated in the cartilaginous skeleton.

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Year:  2005        PMID: 16390320     DOI: 10.1615/critreveukargeneexpr.v15.i3.60

Source DB:  PubMed          Journal:  Crit Rev Eukaryot Gene Expr        ISSN: 1045-4403            Impact factor:   1.807


  30 in total

1.  Stabilization of RNT-1 protein, runt-related transcription factor (RUNX) protein homolog of Caenorhabditis elegans, by oxidative stress through mitogen-activated protein kinase pathway.

Authors:  Kiho Lee; Jiwon Shim; Jaebum Bae; Young-Joon Kim; Junho Lee
Journal:  J Biol Chem       Date:  2012-02-03       Impact factor: 5.157

2.  Runx3 negatively regulates Osterix expression in dental pulp cells.

Authors:  Li Zheng; Koichiro Iohara; Masaki Ishikawa; Takeshi Into; Teruko Takano-Yamamoto; Kenji Matsushita; Misako Nakashima
Journal:  Biochem J       Date:  2007-07-01       Impact factor: 3.857

3.  Functional anthology of intrinsic disorder. 1. Biological processes and functions of proteins with long disordered regions.

Authors:  Hongbo Xie; Slobodan Vucetic; Lilia M Iakoucheva; Christopher J Oldfield; A Keith Dunker; Vladimir N Uversky; Zoran Obradovic
Journal:  J Proteome Res       Date:  2007-03-29       Impact factor: 4.466

4.  Comparative analysis of the two extremes of FLNB-mutated autosomal dominant disease spectrum: from clinical phenotypes to cellular and molecular findings.

Authors:  Qiming Xu; Nan Wu; Lijia Cui; Mao Lin; D Thirumal Kumar; C George Priya Doss; Zhihong Wu; Jianxiong Shen; Xiangjian Song; Guixing Qiu
Journal:  Am J Transl Res       Date:  2018-05-15       Impact factor: 4.060

5.  Sox9 directs hypertrophic maturation and blocks osteoblast differentiation of growth plate chondrocytes.

Authors:  Peter Dy; Weihuan Wang; Pallavi Bhattaram; Qiuqing Wang; Lai Wang; R Tracy Ballock; Véronique Lefebvre
Journal:  Dev Cell       Date:  2012-03-13       Impact factor: 12.270

Review 6.  Regulatory mechanisms for the development of growth plate cartilage.

Authors:  Toshimi Michigami
Journal:  Cell Mol Life Sci       Date:  2013-05-04       Impact factor: 9.261

7.  Making no bones about it: Transcription factors in vertebrate skeletogenesis and disease.

Authors:  Sumantra Chatterjee; V Sivakamasundari; Wenqing Jean Lee; Hsiao Yun Chan; Thomas Lufkin
Journal:  Trends Dev Biol       Date:  2012

8.  Chondrogenesis in a hyaluronic acid scaffold: comparison between chondrocytes and MSC from bone marrow and adipose tissue.

Authors:  Rune B Jakobsen; Aboulghassem Shahdadfar; Finn P Reinholt; Jan E Brinchmann
Journal:  Knee Surg Sports Traumatol Arthrosc       Date:  2009-12-18       Impact factor: 4.342

9.  Repression of Runx2 by androgen receptor (AR) in osteoblasts and prostate cancer cells: AR binds Runx2 and abrogates its recruitment to DNA.

Authors:  Sanjeev K Baniwal; Omar Khalid; Donna Sir; Grant Buchanan; Gerhard A Coetzee; Baruch Frenkel
Journal:  Mol Endocrinol       Date:  2009-04-23

10.  Spatial and temporal regulation of gene expression in the mammalian growth plate.

Authors:  Julian C K Lui; Anenisia C Andrade; Patricia Forcinito; Anita Hegde; WeiPing Chen; Jeffrey Baron; Ola Nilsson
Journal:  Bone       Date:  2010-01-22       Impact factor: 4.398
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