| P2093 | author name string | Christine Laclef | |
| P2860 | cites work | The Ciliopathies: An Emerging Class of Human Genetic Disorders | Q22337032 |
| | Mapping the NPHP-JBTS-MKS protein network reveals ciliopathy disease genes and pathways | Q24302034 |
| | The spinocerebellar ataxia-associated gene Tau tubulin kinase 2 controls the initiation of ciliogenesis | Q24303418 |
| | A BBSome subunit links ciliogenesis, microtubule stability, and acetylation | Q24336047 |
| | The glial nature of embryonic and adult neural stem cells | Q24602498 |
| | Establishing and interpreting graded Sonic Hedgehog signaling during vertebrate neural tube patterning: the role of negative feedback | Q24656671 |
| | Mouse models of ciliopathies: the state of the art. | Q27692039 |
| | Pallister-Hall syndrome phenotype in mice mutant for Gli3 | Q28215920 |
| | Abnormal cerebellar development and axonal decussation due to mutations in AHI1 in Joubert syndrome | Q28278080 |
| | Signaling from Smo to Ci/Gli: conservation and divergence of Hedgehog pathways from Drosophila to vertebrates | Q28285927 |
| | Asymmetric centrosome inheritance maintains neural progenitors in the neocortex | Q28505215 |
| | THM1 negatively modulates mouse sonic hedgehog signal transduction and affects retrograde intraflagellar transport in cilia | Q28505803 |
| | Ttc21b is required to restrict sonic hedgehog activity in the developing mouse forebrain | Q28505900 |
| | Arl13b-regulated cilia activities are essential for polarized radial glial scaffold formation | Q28507617 |
| | Heteromerization of ciliary G protein-coupled receptors in the mouse brain | Q28508883 |
| | Intraflagellar transport protein 172 is essential for primary cilia formation and plays a vital role in patterning the mammalian brain | Q28510663 |
| | Abnormal development of NG2+PDGFR-α+ neural progenitor cells leads to neonatal hydrocephalus in a ciliopathy mouse model | Q28511697 |
| | Hedgehog signaling and primary cilia are required for the formation of adult neural stem cells | Q28512856 |
| | Arl13b in primary cilia regulates the migration and placement of interneurons in the developing cerebral cortex | Q28513840 |
| | Midbody and primary cilium of neural progenitors release extracellular membrane particles enriched in the stem cell marker prominin-1 | Q28589546 |
| | Loss of Bardet-Biedl syndrome protein-8 (BBS8) perturbs olfactory function, protein localization, and axon targeting | Q28591892 |
| | Loss of the retrograde motor for IFT disrupts localization of Smo to cilia and prevents the expression of both activator and repressor functions of Gli | Q28593401 |
| | A crucial role for primary cilia in cortical morphogenesis | Q28594044 |
| | Neuronal subtype specification in the cerebral cortex | Q29616190 |
| | From central to rudimentary to primary: the history of an underappreciated organelle whose time has come. The primary cilium | Q30450537 |
| | A role for primary cilia in glutamatergic synaptic integration of adult-born neurons | Q30505760 |
| | Role of primary cilia in brain development and cancer | Q33691107 |
| | Primary cilia are required for cerebellar development and Shh-dependent expansion of progenitor pool | Q33705922 |
| | The cerebrospinal fluid provides a proliferative niche for neural progenitor cells | Q34169014 |
| | Cilia in the CNS: the quiet organelle claims center stage | Q34173153 |
| | The ciliogenic transcription factor RFX3 regulates early midline distribution of guidepost neurons required for corpus callosum development | Q34221020 |
| | Kif3a controls murine nephron number via GLI3 repressor, cell survival, and gene expression in a lineage-specific manner | Q34769952 |
| | Centriole age underlies asynchronous primary cilium growth in mammalian cells | Q34997578 |
| | Defective Wnt-dependent cerebellar midline fusion in a mouse model of Joubert syndrome | Q35032831 |
| | The genetic basis of mammalian neurulation. | Q35298412 |
| | Cilia and cell cycle re-entry: more than a coincidence | Q35559947 |
| | Neuronal primary cilia: a review | Q35676032 |
| | Primary cilia and Gli3 activity regulate cerebral cortical size | Q35954406 |
| | Disruption of intraflagellar transport in adult mice leads to obesity and slow-onset cystic kidney disease | Q36156370 |
| | KIF3A is a new microtubule-based anterograde motor in the nerve axon | Q36234239 |
| | Analysis of human samples reveals impaired SHH-dependent cerebellar development in Joubert syndrome/Meckel syndrome | Q36342477 |
| | The relationship between sonic Hedgehog signaling, cilia, and neural tube defects | Q36792187 |
| | Primary cilia regulate hippocampal neurogenesis by mediating sonic hedgehog signaling | Q36861834 |
| | The genetics of early telencephalon patterning: some assembly required | Q37158923 |
| | Gli3 controls corpus callosum formation by positioning midline guideposts during telencephalic patterning. | Q37390222 |
| | Understanding the mechanisms of callosal development through the use of transgenic mouse models | Q37602832 |
| | Making sense of cilia in disease: the human ciliopathies. | Q37624563 |
| | Guiding neuronal cell migrations | Q37698278 |
| | The primary cilium as a Hedgehog signal transduction machine | Q37723495 |
| | Primary cilia and forebrain development | Q38053832 |
| | Tangentially migrating neurons assemble a primary cilium that promotes their reorientation to the cortical plate. | Q39499406 |
| | Multiple primary cilia modulate the fluid transcytosis in choroid plexus epithelium | Q39767444 |
| | Apical abscission alters cell polarity and dismantles the primary cilium during neurogenesis | Q40994303 |
| | Basolateral rather than apical primary cilia on neuroepithelial cells committed to delamination | Q42497610 |
| | Arborization of dendrites by developing neocortical neurons is dependent on primary cilia and type 3 adenylyl cyclase. | Q42825721 |
| | Adult ependymal cells are postmitotic and are derived from radial glial cells during embryogenesis. | Q45213360 |
| | Type III adenylyl cyclase localizes to primary cilia throughout the adult mouse brain | Q46959770 |
| | Diffusion tensor imaging in Joubert syndrome. | Q46979992 |
| | Dysfunctional cilia lead to altered ependyma and choroid plexus function, and result in the formation of hydrocephalus | Q48697963 |
| | Primary cilia control telencephalic patterning and morphogenesis via Gli3 proteolytic processing. | Q51871118 |
| | [Non-ciliary functions of cilia proteins]. | Q53004824 |
| | [Interplay between primary cilia and cell cycle]. | Q53004842 |
| | Asymmetric inheritance of centrosome-associated primary cilium membrane directs ciliogenesis after cell division. | Q53086897 |
| | Élongation de l’axonème et dynamique du transport intraflagellaire | Q58858833 |
| P433 | issue | 11 | |
| P407 | language of work or name | French | Q150 |
| P304 | page(s) | 980-990 | |
| P577 | publication date | 2014-11-10 | |
| P1433 | published in | médecine/sciences | Q3332441 |
| P1476 | title | [Primary cilia control different steps of brain development]. | |
| P478 | volume | 30 | |