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Literature DB >> 19770649

Disorders of the growth plate.

Chanika Phornphutkul¹, Philip A Gruppuso.

Abstract

PURPOSE OF REVIEW: To summarize the recent advances in our understanding of the majors genes involved in chondrogenesis and their molecular mechanisms. RECENT
FINDINGS: Disorders of the growth plate and the resulting skeletal dysplasias are a consequence of defects in genes involved in various stages of the chondrocyte proliferation and differentiation process. Recent identification of disease genes has provided insights into the pathophysiology of many skeletal dysplasias.
SUMMARY: This knowledge enhances our understanding of the physiology and pathophysiology of the growth plate. Many skeletal dysplasias can now be characterized at the molecular level, allowing clinicians to provide accurate molecular diagnoses and counseling. Further research in this area will likely provide insights into possible therapeutic options for disorders of the growth plate.

Entities: Chemical Disease Gene Mutation Species

Mesh：

Year: 2009 PMID： 19770649 PMCID： PMC2894809 DOI： 10.1097/MED.0b013e328331dca2

Source DB: PubMed Journal: Curr Opin Endocrinol Diabetes Obes ISSN： 1752-296X Impact factor: 3.243

64 in total

Review 1. Physiology and pathophysiology of the growth plate.

Authors: R Tracy Ballock; Regis J O'Keefe
Journal: Birth Defects Res C Embryo Today Date: 2003-05

Review 2. Control of chondrogenesis by the transcription factor Sox9.

Authors: Haruhiko Akiyama
Journal: Mod Rheumatol Date: 2008-03-20 Impact factor: 3.023

3. Sox genes regulate type 2 collagen expression in avian neural crest cells.

Authors: Takashi Suzuki; Daisuke Sakai; Noriko Osumi; Hiroshi Wada; Yoshio Wakamatsu
Journal: Dev Growth Differ Date: 2006-10 Impact factor: 2.053

Review 4. Transcriptional dysregulation in skeletal malformation syndromes.

Authors: P Hermanns; B Lee
Journal: Am J Med Genet Date: 2001

5. Interactions between the cartilage oligomeric matrix protein and matrilins. Implications for matrix assembly and the pathogenesis of chondrodysplasias.

Authors: Henning H Mann; Suat Ozbek; Jürgen Engel; Mats Paulsson; Raimund Wagener
Journal: J Biol Chem Date: 2004-04-09 Impact factor: 5.157

6. Loss of DNA-dependent dimerization of the transcription factor SOX9 as a cause for campomelic dysplasia.

Authors: Elisabeth Sock; Roberta A Pagon; Kathelijn Keymolen; Willy Lissens; Michael Wegner; Gerd Scherer
Journal: Hum Mol Genet Date: 2003-06-15 Impact factor: 6.150

7. Interaction of FGF, Ihh/Pthlh, and BMP signaling integrates chondrocyte proliferation and hypertrophic differentiation.

Authors: Eleonora Minina; Conny Kreschel; Michael C Naski; David M Ornitz; Andrea Vortkamp
Journal: Dev Cell Date: 2002-09 Impact factor: 12.270

8. Tissue-specific RNA surveillance? Nonsense-mediated mRNA decay causes collagen X haploinsufficiency in Schmid metaphyseal chondrodysplasia cartilage.

Authors: John F Bateman; Susanna Freddi; Gary Nattrass; Ravi Savarirayan
Journal: Hum Mol Genet Date: 2003-02-01 Impact factor: 6.150

9. Functional analysis of the regulatory regions of the matrilin-1 gene in transgenic mice reveals modular arrangement of tissue-specific control elements.

Authors: Ildikó Karcagi; Tibor Rauch; László Hiripi; Otgonchimeg Rentsendorj; Andrea Nagy; Zsuzsa Bõsze; Ibolya Kiss
Journal: Matrix Biol Date: 2004-02 Impact factor: 11.583

10. Homozygous mutations in IHH cause acrocapitofemoral dysplasia, an autosomal recessive disorder with cone-shaped epiphyses in hands and hips.

Authors: Jan Hellemans; Paul J Coucke; Andres Giedion; Anne De Paepe; Peter Kramer; Frits Beemer; Geert R Mortier
Journal: Am J Hum Genet Date: 2003-03-11 Impact factor: 11.025

4 in total