BACKGROUND: DDX11 is a DNA helicase of the conserved FANCJ/RAD3/XPD family involved in maintaining genome stability. Studies in yeast and humans have shown requirements for DDX11 in sister chromatid cohesion and DNA repair. In mouse, loss of Ddx11 results in embryonic lethality. However, the developmental defects of Ddx11 mutants are poorly understood. RESULTS: We describe the characterization and positional cloning of cetus, a mouse ENU-induced mutation in Ddx11. We demonstrate that cetus causes a nonconservative amino acid change in DDX11 motif V and that this mutation is a null allele of Ddx11. cetus mutant embryos failed to thrive beyond embryonic day 8.5 and displayed placental defects similar to those described in Ddx11 null embryos. Additionally, our characterization of Ddx11(cetus) mutants identified embryonic phenotypes that had not been previously reported in Ddx11(KO) embryos, including loss of somitic mesoderm, an open kinked neural tube and abnormal heart looping. We show that loss of Ddx11 causes widespread apoptosis from early embryonic stages and that loss of Ddx11 disrupts somitic mesoderm more dramatically than other embryonic cells. CONCLUSIONS: Our results identify novel roles of Ddx11 during embryo morphogenesis and demonstrate that the activity of its motif V is essential for DDX11 function.
BACKGROUND:DDX11 is a DNA helicase of the conserved FANCJ/RAD3/XPD family involved in maintaining genome stability. Studies in yeast and humans have shown requirements for DDX11 in sister chromatid cohesion and DNA repair. In mouse, loss of Ddx11 results in embryonic lethality. However, the developmental defects of Ddx11 mutants are poorly understood. RESULTS: We describe the characterization and positional cloning of cetus, a mouse ENU-induced mutation in Ddx11. We demonstrate that cetus causes a nonconservative amino acid change in DDX11 motif V and that this mutation is a null allele of Ddx11. cetus mutant embryos failed to thrive beyond embryonic day 8.5 and displayed placental defects similar to those described in Ddx11 null embryos. Additionally, our characterization of Ddx11(cetus) mutants identified embryonic phenotypes that had not been previously reported in Ddx11(KO) embryos, including loss of somitic mesoderm, an open kinked neural tube and abnormal heart looping. We show that loss of Ddx11 causes widespread apoptosis from early embryonic stages and that loss of Ddx11disrupts somitic mesoderm more dramatically than other embryonic cells. CONCLUSIONS: Our results identify novel roles of Ddx11 during embryo morphogenesis and demonstrate that the activity of its motif V is essential for DDX11 function.
Authors: Ebba Alkhunaizi; Ranad Shaheen; Sanjay Kumar Bharti; Ann M Joseph-George; Karen Chong; Ghada M H Abdel-Salam; Mohammed Alowain; Susan I Blaser; Blake C Papsin; Mohammed Butt; Mais Hashem; Nicole Martin; Ruth Godoy; Robert M Brosh; Fowzan S Alkuraya; David Chitayat Journal: Am J Med Genet A Date: 2018-09-14 Impact factor: 2.802
Authors: Janne J M van Schie; Atiq Faramarz; Jesper A Balk; Grant S Stewart; Erika Cantelli; Anneke B Oostra; Martin A Rooimans; Joanna L Parish; Cynthia de Almeida Estéves; Katja Dumic; Ingeborg Barisic; Karin E M Diderich; Marjon A van Slegtenhorst; Mohammad Mahtab; Francesca M Pisani; Hein Te Riele; Najim Ameziane; Rob M F Wolthuis; Job de Lange Journal: Nat Commun Date: 2020-08-27 Impact factor: 14.919
Authors: Atiq Faramarz; Jesper A Balk; Janne J M van Schie; Anneke B Oostra; Cherien A Ghandour; Martin A Rooimans; Rob M F Wolthuis; Job de Lange Journal: PLoS One Date: 2020-01-14 Impact factor: 3.240
Authors: Jee Soo Park; Myung Eun Lee; Won Sik Jang; Koon Ho Rha; Seung Hwan Lee; Jongsoo Lee; Won Sik Ham Journal: Cancers (Basel) Date: 2021-05-24 Impact factor: 6.639