Literature DB >> 26662625

Novel genetic tools facilitate the study of cortical neuron migration.

Megan Cionni1, Chelsea Menke1, Rolf W Stottmann2,3.   

Abstract

Key facets of mammalian forebrain cortical development include the radial migration of projection neurons and subsequent cellular differentiation into layer-specific subtypes. Inappropriate regulation of these processes can lead to a number of congenital brain defects in both mouse and human, including lissencephaly and intellectual disability. The genes regulating these processes are still not all identified, suggesting genetic analyses will continue to be a powerful tool in mechanistically studying the development of the cerebral cortex. Reelin is a molecule which we have understood to be critical for proper cortical development for many years. The precise mechanism of Reelin, however, is not fully understood. To address both of these unresolved issues, we report here the creation of a novel conditional allele of the Reelin gene and showcase the use of an Etv1-GFP transgenic line highlighting a subpopulation of the cortex: layer V pyramidal neurons. Together, these represent genetic tools which may facilitate the study of cortical development in a number of different ways.

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Year:  2015        PMID: 26662625      PMCID: PMC4732900          DOI: 10.1007/s00335-015-9615-6

Source DB:  PubMed          Journal:  Mamm Genome        ISSN: 0938-8990            Impact factor:   2.957


  43 in total

1.  Patterns of cell and fiber distribution in the neocortex of the reeler mutant mouse.

Authors:  V S Caviness
Journal:  J Comp Neurol       Date:  1976-12-15       Impact factor: 3.215

2.  Genome-wide atlas of gene expression in the adult mouse brain.

Authors:  Ed S Lein; Michael J Hawrylycz; Nancy Ao; Mikael Ayres; Amy Bensinger; Amy Bernard; Andrew F Boe; Mark S Boguski; Kevin S Brockway; Emi J Byrnes; Lin Chen; Li Chen; Tsuey-Ming Chen; Mei Chi Chin; Jimmy Chong; Brian E Crook; Aneta Czaplinska; Chinh N Dang; Suvro Datta; Nick R Dee; Aimee L Desaki; Tsega Desta; Ellen Diep; Tim A Dolbeare; Matthew J Donelan; Hong-Wei Dong; Jennifer G Dougherty; Ben J Duncan; Amanda J Ebbert; Gregor Eichele; Lili K Estin; Casey Faber; Benjamin A Facer; Rick Fields; Shanna R Fischer; Tim P Fliss; Cliff Frensley; Sabrina N Gates; Katie J Glattfelder; Kevin R Halverson; Matthew R Hart; John G Hohmann; Maureen P Howell; Darren P Jeung; Rebecca A Johnson; Patrick T Karr; Reena Kawal; Jolene M Kidney; Rachel H Knapik; Chihchau L Kuan; James H Lake; Annabel R Laramee; Kirk D Larsen; Christopher Lau; Tracy A Lemon; Agnes J Liang; Ying Liu; Lon T Luong; Jesse Michaels; Judith J Morgan; Rebecca J Morgan; Marty T Mortrud; Nerick F Mosqueda; Lydia L Ng; Randy Ng; Geralyn J Orta; Caroline C Overly; Tu H Pak; Sheana E Parry; Sayan D Pathak; Owen C Pearson; Ralph B Puchalski; Zackery L Riley; Hannah R Rockett; Stephen A Rowland; Joshua J Royall; Marcos J Ruiz; Nadia R Sarno; Katherine Schaffnit; Nadiya V Shapovalova; Taz Sivisay; Clifford R Slaughterbeck; Simon C Smith; Kimberly A Smith; Bryan I Smith; Andy J Sodt; Nick N Stewart; Kenda-Ruth Stumpf; Susan M Sunkin; Madhavi Sutram; Angelene Tam; Carey D Teemer; Christina Thaller; Carol L Thompson; Lee R Varnam; Axel Visel; Ray M Whitlock; Paul E Wohnoutka; Crissa K Wolkey; Victoria Y Wong; Matthew Wood; Murat B Yaylaoglu; Rob C Young; Brian L Youngstrom; Xu Feng Yuan; Bin Zhang; Theresa A Zwingman; Allan R Jones
Journal:  Nature       Date:  2006-12-06       Impact factor: 49.962

3.  The reeler gene encodes a protein with an EGF-like motif expressed by pioneer neurons.

Authors:  S Hirotsune; T Takahara; N Sasaki; K Hirose; A Yoshiki; T Ohashi; M Kusakabe; Y Murakami; M Muramatsu; S Watanabe
Journal:  Nat Genet       Date:  1995-05       Impact factor: 38.330

Review 4.  Neuronal migration disorders: Focus on the cytoskeleton and epilepsy.

Authors:  Melissa A Stouffer; Jeffrey A Golden; Fiona Francis
Journal:  Neurobiol Dis       Date:  2015-08-20       Impact factor: 5.996

Review 5.  How does Reelin control neuronal migration and layer formation in the developing mammalian neocortex?

Authors:  Katsutoshi Sekine; Ken-ichiro Kubo; Kazunori Nakajima
Journal:  Neurosci Res       Date:  2014-06-23       Impact factor: 3.304

Review 6.  The diverse genetic landscape of neurodevelopmental disorders.

Authors:  Wen F Hu; Maria H Chahrour; Christopher A Walsh
Journal:  Annu Rev Genomics Hum Genet       Date:  2014       Impact factor: 8.929

7.  Neuronal subtype-specific genes that control corticospinal motor neuron development in vivo.

Authors:  Paola Arlotta; Bradley J Molyneaux; Jinhui Chen; Jun Inoue; Ryo Kominami; Jeffrey D Macklis
Journal:  Neuron       Date:  2005-01-20       Impact factor: 17.173

8.  Mitotic spindle regulation by Nde1 controls cerebral cortical size.

Authors:  Yuanyi Feng; Christopher A Walsh
Journal:  Neuron       Date:  2004-10-14       Impact factor: 17.173

9.  A gene expression atlas of the central nervous system based on bacterial artificial chromosomes.

Authors:  Shiaoching Gong; Chen Zheng; Martin L Doughty; Kasia Losos; Nicholas Didkovsky; Uta B Schambra; Norma J Nowak; Alexandra Joyner; Gabrielle Leblanc; Mary E Hatten; Nathaniel Heintz
Journal:  Nature       Date:  2003-10-30       Impact factor: 49.962

10.  Analysis of area-specific expression patterns of RORbeta, ER81 and Nurr1 mRNAs in rat neocortex by double in situ hybridization and cortical box method.

Authors:  Junya Hirokawa; Akiya Watakabe; Sonoko Ohsawa; Tetsuo Yamamori
Journal:  PLoS One       Date:  2008-09-25       Impact factor: 3.240
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  1 in total

1.  Nubp2 is required for cranial neural crest survival in the mouse.

Authors:  Andrew DiStasio; David Paulding; Praneet Chaturvedi; Rolf W Stottmann
Journal:  Dev Biol       Date:  2019-11-14       Impact factor: 3.582
  1 in total

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