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A Novel Strategy Combining Array-CGH, Whole-exome Sequencing and In Utero Electroporation in Rodents to Identify Causative Genes for Brain Malformations
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JoVE Journal Neurowissenschaften
A Novel Strategy Combining Array-CGH, Whole-exome Sequencing and In Utero Electroporation in Rodents to Identify Causative Genes for Brain Malformations

A Novel Strategy Combining Array-CGH, Whole-exome Sequencing and In Utero Electroporation in Rodents to Identify Causative Genes for Brain Malformations

DOI:
10.3791/53570-v

08:22 min

December 01, 2017

, , , , , , , , , , , , , , , , , , ,
1University of Florence, 2INSERM INMED, 3Aix-Marseille University, 4Plateforme Biologie Moléculaire et Cellulaire INMED, 5Royal Children’s Hospital, 6Murdoch Children’s Research Institute, 7University of Melbourne, 8Plateforme postgenomique INMED, 9University of Pavia, 10Wellcome Trust Centre for Human Genetics, 11Oxford Radcliffe NHS Trust, 12IRCCS Casimiro Mondino Foundation, 13Research Institute of Molecular Pathology, 14IRCCS Stella Maris, 15Columbia University

Kapitel

  • 00:05Titel
  • 01:07In Utero Electroporation
  • 03:46Brain Sectioning
  • 05:12Confocal Imaging and Quantitative Analysis
  • 06:35Results: C6orf-70-knockdown Alters Radial Migration of Cortical Neurons
  • 07:46Conclusion

Summary

Automatische Übersetzung

Automatische Übersetzung

Periventricular nodular heterotopia (PNH) is the most common form of malformation of cortical development (MCD) in adulthood but its genetic basis remains unknown in most sporadic cases. We have recently developed a strategy to identify novel candidate genes for MCDs and to directly confirm their causative role in vivo.

Tags

Array-CGHWhole-exome SequencingIn Utero ElectroporationBrain MalformationsNeurobiologyC6orf70 GenePeriventricular Nodular HeterotopiaNeuronal MigrationPregnant RatMicroinjectionDNA Electroporation

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