論文

国際誌
2003年9月15日

Growth retardation and skin abnormalities of the Recql4-deficient mouse.

Human molecular genetics
  • Yuko Hoki
  • Ryoko Araki
  • Akira Fujimori
  • Tatsuya Ohhata
  • Haruhiko Koseki
  • Ryutaro Fukumura
  • Miki Nakamura
  • Hirokazu Takahashi
  • Yuko Noda
  • Seiji Kito
  • Masumi Abe
  • 全て表示

12
18
開始ページ
2293
終了ページ
9
記述言語
英語
掲載種別
研究論文(学術雑誌)

Mutations in the Recql4 gene are very likely responsible for a subset of Rothmund-Thomson syndrome (RTS) cases, but until now there has been no animal model to confirm this. Knockout mice in which the Recql4 gene is disrupted at exons 5-8 exhibit embryonic lethality at embryonic day 3.5-6.5. We generated a helicase activity-inhibited mouse by deleting exon 13 of Recql4, which is one of the coding exons of the consensus RecQ-helicase domain. This domain is the primary site of mutations that have been identified in RTS patients. The exon 13-deleted Recql4-deficient mice are viable, but exhibit severe growth retardation and abnormalities in several tissues, and embryonic fibroblasts show a defect in cell proliferation. Abnormalities in the Recql4-deficient mice are similar to those in RTS patients, suggesting that defects in the Recql4 gene may indeed be responsible for RTS. We speculate that the loss of Recql4 helicase activity results in the prematurely aged appearance observed in some RecQ helicase diseases.

リンク情報
PubMed
https://www.ncbi.nlm.nih.gov/pubmed/12915449
ID情報
  • ISSN : 0964-6906
  • PubMed ID : 12915449

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