Gene Expression Literature Summary

• Symbol: Pcnt
• Name: pericentrin (kendrin)
• ID: MGI:102722

98 matching records from 98 references.

Summary by Age and Assay: Numbers in the table indicate the number of results matching the search criteria.

Age	E0.5	E2	E3	E3.5	E4.5	E5.5	E6.5	E7	E8	E8.5	E9.5	E10	E10.5	E11	E11.5	E12	E12.5	E13	E13.5	E14	E14.5	E15	E15.5	E16	E16.5	E17	E17.5	E18	E18.5	E19	E	P
Immunohistochemistry (section)						1	2			2	5		1		3	1	9	2	5	4	13		10	2	6		4	1	5		4	18
In situ RNA (section)												1			1			1	1		1	1	3					1	1			1
Immunohistochemistry (whole mount)	1	1	1	1	1				1	1			2												1		1		1		1	9
In situ RNA (whole mount)											1		4				3
Northern blot								1						1								1		1		1						1
Western blot											1		1		1				1		3		1			1	1				1	3
RT-PCR										1	1						1		1											1		3
cDNA clones																																1

Summary by Gene and Reference: Number indicates the number of results matching the search criteria recorded for each reference.
* Indicates detailed expression data entries available

Pcnt  pericentrin (kendrin)   (Synonyms: m239Asp, m275Asp, mKIAA0402, Pcnt2)
Results	Reference
1	J:166903 Aboualaiwi WA, Ratnam S, Booth RL, Shah JV, Nauli SM, Endothelial cells from humans and mice with polycystic kidney disease are characterized by polyploidy and chromosome segregation defects through survivin down-regulation. Hum Mol Genet. 2011 Jan 15;20(2):354-67
1*	J:230806 Arbi M, Pefani DE, Kyrousi C, Lalioti ME, Kalogeropoulou A, Papanastasiou AD, Taraviras S, Lygerou Z, GemC1 controls multiciliogenesis in the airway epithelium. EMBO Rep. 2016 Mar;17(3):400-13
2	J:182718 Arellano JI, Guadiana SM, Breunig JJ, Rakic P, Sarkisian MR, Development and distribution of neuronal cilia in mouse neocortex. J Comp Neurol. 2012 Mar 1;520(4):848-73
1	J:208632 Bazzi H, Anderson KV, Acentriolar mitosis activates a p53-dependent apoptosis pathway in the mouse embryo. Proc Natl Acad Sci U S A. 2014 Apr 15;111(15):E1491-500
3	J:284524 Bendriem RM, Singh S, Aleem AA, Antonetti DA, Ross ME, Tight junction protein occludin regulates progenitor Self-Renewal and survival in developing cortex. Elife. 2019 Dec 3;8:e49376
1	J:255747 Berenjeno IM, Pineiro R, Castillo SD, Pearce W, McGranahan N, Dewhurst SM, Meniel V, Birkbak NJ, Lau E, Sansregret L, Morelli D, Kanu N, Srinivas S, Graupera M, Parker VER, Montgomery KG, Moniz LS, Scudamore CL, Phillips WA, Semple RK, Clarke A, Swanton C, Vanhaesebroeck B, Oncogenic PIK3CA induces centrosome amplification and tolerance to genome doubling. Nat Commun. 2017 Nov 24;8(1):1773
8	J:160692 Buchman JJ, Tseng HC, Zhou Y, Frank CL, Xie Z, Tsai LH, Cdk5rap2 interacts with pericentrin to maintain the neural progenitor pool in the developing neocortex. Neuron. 2010 May 13;66(3):386-402
3	J:273640 Camargo Ortega G, Falk S, Johansson PA, Peyre E, Broix L, Sahu SK, Hirst W, Schlichthaerle T, De Juan Romero C, Draganova K, Vinopal S, Chinnappa K, Gavranovic A, Karakaya T, Steininger T, Merl-Pham J, Feederle R, Shao W, Shi SH, Hauck SM, Jungmann R, Bradke F, Borrell V, Geerlof A, Reber S, Tiwari VK, Huttner WB, Wilsch-Brauninger M, Nguyen L, Gotz M, The centrosome protein AKNA regulates neurogenesis via microtubule organization. Nature. 2019 Mar;567(7746):113-117
1	J:226309 Chen CT, Hehnly H, Yu Q, Farkas D, Zheng G, Redick SD, Hung HF, Samtani R, Jurczyk A, Akbarian S, Wise C, Jackson A, Bober M, Guo Y, Lo C, Doxsey S, A unique set of centrosome proteins requires pericentrin for spindle-pole localization and spindle orientation. Curr Biol. 2014 Oct 6;24(19):2327-34
1	J:175551 Chilov D, Sinjushina N, Rita H, Taketo MM, Makela TP, Partanen J, Phosphorylated beta-catenin localizes to centrosomes of neuronal progenitors and is required for cell polarity and neurogenesis in developing midbrain. Dev Biol. 2011 Sep 1;357(1):259-68
1*	J:148410 Combes AN, Lesieur E, Harley VR, Sinclair AH, Little MH, Wilhelm D, Koopman P, Three-dimensional visualization of testis cord morphogenesis, a novel tubulogenic mechanism in development. Dev Dyn. 2009 May;238(5):1033-41
1	J:255775 Connell M, Chen H, Jiang J, Kuan CW, Fotovati A, Chu TL, He Z, Lengyell TC, Li H, Kroll T, Li AM, Goldowitz D, Frappart L, Ploubidou A, Patel MS, Pilarski LM, Simpson EM, Lange PF, Allan DW, Maxwell CA, HMMR acts in the PLK1-dependent spindle positioning pathway and supports neural development. Elife. 2017 Oct 10;6:e28672
2	J:201321 Copley CO, Duncan JS, Liu C, Cheng H, Deans MR, Postnatal refinement of auditory hair cell planar polarity deficits occurs in the absence of Vangl2. J Neurosci. 2013 Aug 28;33(35):14001-16
6*	J:191315 Courtois A, Schuh M, Ellenberg J, Hiiragi T, The transition from meiotic to mitotic spindle assembly is gradual during early mammalian development. J Cell Biol. 2012 Aug 6;198(3):357-70
1	J:316794 David A, Liu F, Tibelius A, Vulprecht J, Wald D, Rothermel U, Ohana R, Seitel A, Metzger J, Ashery-Padan R, Meinzer HP, Grone HJ, Izraeli S, Kramer A, Lack of centrioles and primary cilia in STIL(-/-) mouse embryos. Cell Cycle. 2014;13(18):2859-68
1	J:317793 De Zio D, Molinari F, Rizza S, Gatta L, Ciotti MT, Salvatore AM, Mathiassen SG, Cwetsch AW, Filomeni G, Rosano G, Ferraro E, Apaf1-deficient cortical neurons exhibit defects in axonal outgrowth. Cell Mol Life Sci. 2015 Nov;72(21):4173-91
1	J:119451 Deans MR, Antic D, Suyama K, Scott MP, Axelrod JD, Goodrich LV, Asymmetric distribution of Prickle-like 2 reveals an early underlying polarization of vestibular sensory epithelia in the inner ear. J Neurosci. 2007 Mar 21;27(12):3139-47
1	J:324707 Dhandapani L, Salzer MC, Duran JM, Zaffagnini G, De Guirior C, Martinez-Zamora MA, Boke E, Comparative analysis of vertebrates reveals that mouse primordial oocytes do not contain a Balbiani body. J Cell Sci. 2022 Dec 1;135(1):jcs259394
1*	J:273130 Ding W, Wu Q, Sun L, Pan NC, Wang X, Cenpj Regulates Cilia Disassembly and Neurogenesis in the Developing Mouse Cortex. J Neurosci. 2019 Mar 13;39(11):1994-2010
1	J:332091 Ding W, Zhang C, Wang B, Zhou X, Sun L, Zhong S, Liu J, Zhang J, Wang X, Wu Q, Loss of the centrosomal protein Cenpj leads to dysfunction of the hypothalamus and obesity in mice. Sci China Life Sci. 2021 Mar;64(3):419-433
3*	J:17138 Doxsey SJ, Stein P, Evans L, Calarco PD, Kirschner M, Pericentrin, a highly conserved centrosome protein involved in microtubule organization [see comments]. Cell. 1994 Feb 25;76(4):639-50
1*	J:167828 El-Hashash AH, Warburton D, Cell polarity and spindle orientation in the distal epithelium of embryonic lung. Dev Dyn. 2011 Feb;240(2):441-5
6	J:158418 Endoh-Yamagami S, Karkar KM, May SR, Cobos I, Thwin MT, Long JE, Ashique AM, Zarbalis K, Rubenstein JL, Peterson AS, A mutation in the pericentrin gene causes abnormal interneuron migration to the olfactory bulb in mice. Dev Biol. 2010 Apr 1;340(1):41-53
1	J:173367 Ezratty EJ, Stokes N, Chai S, Shah AS, Williams SE, Fuchs E, A Role for the Primary Cilium in Notch Signaling and Epidermal Differentiation during Skin Development. Cell. 2011 Jun 24;145(7):1129-41
1	J:256059 Falk S, Bugeon S, Ninkovic J, Pilz GA, Postiglione MP, Cremer H, Knoblich JA, Gotz M, Time-Specific Effects of Spindle Positioning on Embryonic Progenitor Pool Composition and Adult Neural Stem Cell Seeding. Neuron. 2017 Feb 22;93(4):777-791.e3
1	J:202029 Folgueras AR, Guo X, Pasolli HA, Stokes N, Polak L, Zheng D, Fuchs E, Architectural niche organization by LHX2 is linked to hair follicle stem cell function. Cell Stem Cell. 2013 Sep 5;13(3):314-27
1*	J:161175 Ge X, Frank CL, Calderon de Anda F, Tsai LH, Hook3 interacts with PCM1 to regulate pericentriolar material assembly and the timing of neurogenesis. Neuron. 2010 Jan 28;65(2):191-203
2	J:171615 Georgas KM, Chiu HS, Lesieur E, Rumballe BA, Little MH, Expression of metanephric nephron-patterning genes in differentiating mesonephric tubules. Dev Dyn. 2011 Jun;240(6):1600-12
1	J:226932 Gerhardt C, Lier JM, Burmuhl S, Struchtrup A, Deutschmann K, Vetter M, Leu T, Reeg S, Grune T, Ruther U, The transition zone protein Rpgrip1l regulates proteasomal activity at the primary cilium. J Cell Biol. 2015 Jul 6;210(1):115-33
1	J:199499 Gerhardt C, Lier JM, Kuschel S, Ruther U, The ciliary protein Ftm is required for ventricular wall and septal development. PLoS One. 2013;8(2):e57545
2*	J:171409 GUDMAP Consortium, GUDMAP: the GenitoUrinary Development Molecular Anatomy Project. www.gudmap.org. 2004;
1	J:271615 Haag N, Schuler S, Nietzsche S, Hubner CA, Strenzke N, Qualmann B, Kessels MM, The Actin Nucleator Cobl Is Critical for Centriolar Positioning, Postnatal Planar Cell Polarity Refinement, and Function of the Cochlea. Cell Rep. 2018 Aug 28;24(9):2418-2431.e6
1	J:334512 He S, Gillies JP, Zang JL, Cordoba-Beldad CM, Yamamoto I, Fujiwara Y, Grantham J, DeSantis ME, Shibuya H, Distinct dynein complexes defined by DYNLRB1 and DYNLRB2 regulate mitotic and male meiotic spindle bipolarity. Nat Commun. 2023 Mar 27;14(1):1715
1*	J:156021 Hick AC, van Eyll JM, Cordi S, Forez C, Passante L, Kohara H, Nagasawa T, Vanderhaeghen P, Courtoy PJ, Rousseau GG, Lemaigre FP, Pierreux CE, Mechanism of primitive duct formation in the pancreas and submandibular glands: a role for SDF-1. BMC Dev Biol. 2009;9:66
1	J:203743 Higginbotham H, Guo J, Yokota Y, Umberger NL, Su CY, Li J, Verma N, Hirt J, Ghukasyan V, Caspary T, Anton ES, Arl13b-regulated cilia activities are essential for polarized radial glial scaffold formation. Nat Neurosci. 2013 Aug;16(8):1000-7
2	J:331486 Hirose T, Sugitani Y, Kurihara H, Kazama H, Kusaka C, Noda T, Takahashi H, Ohno S, PAR3 restricts the expansion of neural precursor cells by regulating hedgehog signaling. Development. 2022 Nov 1;149(21):dev199931
1	J:343289 Ho KH, Candat A, Scarpetta V, Faucourt M, Weill S, Salio C, D'Este E, Meschkat M, Wurm CA, Kneussel M, Janke C, Magiera MM, Genovesio A, Meunier A, Sassoe-Pognetto M, Brill MS, Spassky N, Patrizi A, Choroid plexuses carry nodal-like cilia that undergo axoneme regression from early adult stage. Dev Cell. 2023 Dec 4;58(23):2641-2651.e6
1	J:306320 Ho UY, Feng CA, Yeap YY, Bain AL, Wei Z, Shohayeb B, Reichelt ME, Homer H, Khanna KK, Bowles J, Ng DCH, WDR62 is required for centriole duplication in spermatogenesis and manchette removal in spermiogenesis. Commun Biol. 2021 May 31;4(1):645
1	J:263171 Hoefert JE, Bjerke GA, Wang D, Yi R, The microRNA-200 family coordinately regulates cell adhesion and proliferation in hair morphogenesis. J Cell Biol. 2018 Jun 4;217(6):2185-2204
1	J:238096 Houlihan SL, Lanctot AA, Guo Y, Feng Y, Upregulation of neurovascular communication through filamin abrogation promotes ectopic periventricular neurogenesis. Elife. 2016 Sep 24;5:e17823
4	J:219422 Insolera R, Bazzi H, Shao W, Anderson KV, Shi SH, Cortical neurogenesis in the absence of centrioles. Nat Neurosci. 2014 Nov;17(11):1528-35
2*	J:215665 Insolera R, Shao W, Airik R, Hildebrandt F, Shi SH, SDCCAG8 regulates pericentriolar material recruitment and neuronal migration in the developing cortex. Neuron. 2014 Aug 20;83(4):805-22
1	J:160733 Ivaniutsin U, Chen Y, Mason JO, Price DJ, Pratt T, Adenomatous polyposis coli is required for early events in the normal growth and differentiation of the developing cerebral cortex. Neural Dev. 2009;4:3
1	J:338698 Jarysta A, Tadenev ALD, Day M, Krawchuk B, Low BE, Wiles MV, Tarchini B, Inhibitory G proteins play multiple roles to polarize sensory hair cell morphogenesis. Elife. 2023;
1	J:317410 Johansson E, Liang S, Moccia C, Carlsson T, Andersson D, Fagman H, Nilsson M, Asynchrony of Apical Polarization, Luminogenesis, and Functional Differentiation in the Developing Thyroid Gland. Front Endocrinol (Lausanne). 2021;12:760541
1	J:326251 Kalogeropoulou A, Mougkogianni M, Iliadou M, Nikolopoulou E, Flordelis S, Kanellou A, Arbi M, Nikou S, Nieminuszczy J, Niedzwiedz W, Kardamakis D, Bravou V, Lygerou Z, Taraviras S, Intrinsic neural stem cell properties define brain hypersensitivity to genotoxic stress. Stem Cell Reports. 2022 Jun 14;17(6):1395-1410
1	J:160624 Kim S, Lehtinen MK, Sessa A, Zappaterra MW, Cho SH, Gonzalez D, Boggan B, Austin CA, Wijnholds J, Gambello MJ, Malicki J, LaMantia AS, Broccoli V, Walsh CA, The apical complex couples cell fate and cell survival to cerebral cortical development. Neuron. 2010 Apr 15;66(1):69-84
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2	J:306060 Kindt KS, Akturk A, Jarysta A, Day M, Beirl A, Flonard M, Tarchini B, EMX2-GPR156-Galphai reverses hair cell orientation in mechanosensory epithelia. Nat Commun. 2021 May 17;12(1):2861
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1	J:306851 Kunii M, Noguchi Y, Yoshimura SI, Kanda S, Iwano T, Avriyanti E, Atik N, Sato T, Sato K, Ogawa M, Harada A, SNAP23 deficiency causes severe brain dysplasia through the loss of radial glial cell polarity. J Cell Biol. 2021 Jan 4;220(1)
1	J:277726 Lecland N, Hsu CY, Chemin C, Merdes A, Bierkamp C, Epidermal development requires ninein for spindle orientation and cortical microtubule organization. Life Sci Alliance. 2019 Apr;2(2)
1	J:313459 Lee B, Panda S, Lee HY, Primary Ciliary Deficits in the Dentate Gyrus of Fragile X Syndrome. Stem Cell Reports. 2020 Aug 11;15(2):454-466
1	J:106707 Lien WH, Klezovitch O, Fernandez TE, Delrow J, Vasioukhin V, alphaE-catenin controls cerebral cortical size by regulating the hedgehog signaling pathway. Science. 2006 Mar 17;311(5767):1609-12
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1	J:224364 Marjanovic M, Sanchez-Huertas C, Terre B, Gomez R, Scheel JF, Pacheco S, Knobel PA, Martinez-Marchal A, Aivio S, Palenzuela L, Wolfrum U, McKinnon PJ, Suja JA, Roig I, Costanzo V, Luders J, Stracker TH, CEP63 deficiency promotes p53-dependent microcephaly and reveals a role for the centrosome in meiotic recombination. Nat Commun. 2015;6:7676
1	J:98298 Michaut MA, Williams CJ, Schultz RM, Phosphorylated MARCKS: a novel centrosome component that also defines a peripheral subdomain of the cortical actin cap in mouse eggs. Dev Biol. 2005 Apr 1;280(1):26-37
7*	J:115578 Miyoshi K, Asanuma M, Miyazaki I, Matsuzaki S, Tohyama M, Ogawa N, Characterization of pericentrin isoforms in vivo. Biochem Biophys Res Commun. 2006 Dec 22;351(3):745-9
5*	J:109508 Miyoshi K, Onishi K, Asanuma M, Miyazaki I, Diaz-Corrales FJ, Ogawa N, Embryonic expression of pericentrin suggests universal roles in ciliogenesis. Dev Genes Evol. 2006 Sep;216(9):537-42
4	J:179756 Muhlhans J, Brandstatter JH, Giessl A, The centrosomal protein pericentrin identified at the basal body complex of the connecting cilium in mouse photoreceptors. PLoS One. 2011;6(10):e26496
1	J:205283 Munoz-Espin D, Canamero M, Maraver A, Gomez-Lopez G, Contreras J, Murillo-Cuesta S, Rodriguez-Baeza A, Varela-Nieto I, Ruberte J, Collado M, Serrano M, Programmed cell senescence during mammalian embryonic development. Cell. 2013 Nov 21;155(5):1104-18
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1	J:297088 Naito Y, Asada N, Nguyen MD, Sanada K, AMP-activated protein kinase regulates cytoplasmic dynein behavior and contributes to neuronal migration in the developing neocortex. Development. 2020 Jul 15;147(14):dev187310
1	J:297063 Najarro EH, Huang J, Jacobo A, Quiruz LA, Grillet N, Cheng AG, Dual regulation of planar polarization by secreted Wnts and Vangl2 in the developing mouse cochlea. Development. 2020 Oct 5;147(19):dev191981
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1	J:239604 Okamoto S, Chaya T, Omori Y, Kuwahara R, Kubo S, Sakaguchi H, Furukawa T, Ick Ciliary Kinase Is Essential for Planar Cell Polarity Formation in Inner Ear Hair Cells and Hearing Function. J Neurosci. 2017 Feb 22;37(8):2073-2085
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1	J:317613 Patnaik SR, Kretschmer V, Brucker L, Schneider S, Volz AK, Oancea-Castillo LDR, May-Simera HL, Bardet-Biedl Syndrome proteins regulate cilia disassembly during tissue maturation. Cell Mol Life Sci. 2019 Feb;76(4):757-775
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7*	J:80502 Reymond A, Marigo V, Yaylaoglu MB, Leoni A, Ucla C, Scamuffa N, Caccioppoli C, Dermitzakis ET, Lyle R, Banfi S, Eichele G, Antonarakis SE, Ballabio A, Human chromosome 21 gene expression atlas in the mouse. Nature. 2002 Dec 5;420(6915):582-6
1	J:282460 Rong Y, Ji SY, Zhu YZ, Wu YW, Shen L, Fan HY, ZAR1 and ZAR2 are required for oocyte meiotic maturation by regulating the maternal transcriptome and mRNA translational activation. Nucleic Acids Res. 2019 Dec 2;47(21):11387-11402
1	J:326958 Sapir T, Kshirsagar A, Gorelik A, Olender T, Porat Z, Scheffer IE, Goldstein DB, Devinsky O, Reiner O, Heterogeneous nuclear ribonucleoprotein U (HNRNPU) safeguards the developing mouse cortex. Nat Commun. 2022 Jul 21;13(1):4209
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1	J:181006 Tuson M, He M, Anderson KV, Protein kinase A acts at the basal body of the primary cilium to prevent Gli2 activation and ventralization of the mouse neural tube. Development. 2011 Nov;138(22):4921-30
1*	J:310323 Vied CM, Freudenberg F, Wang Y, Raposo AA, Feng D, Nowakowski RS, A multi-resource data integration approach: identification of candidate genes regulating cell proliferation during neocortical development. Front Neurosci. 2014;8:257
3	J:334462 Vinopal S, Dupraz S, Alfadil E, Pietralla T, Bendre S, Stiess M, Falk S, Camargo Ortega G, Maghelli N, Tolic IM, Smejkal J, Gotz M, Bradke F, Centrosomal microtubule nucleation regulates radial migration of projection neurons independently of polarization in the developing brain. Neuron. 2023 Feb 9;
1	J:338452 Wang D, Li H, Chandel NS, Dou Y, Yi R, MOF-mediated histone H4 Lysine 16 acetylation governs mitochondrial and ciliary functions by controlling gene promoters. Nat Commun. 2023 Jul 21;14(1):4404
1	J:91673 Wang X, Wang RH, Li W, Xu X, Hollander MC, Fornace AJ Jr, Deng CX, Genetic interactions between Brca1 and Gadd45a in centrosome duplication, genetic stability, and neural tube closure. J Biol Chem. 2004 Jul 9;279(28):29606-14
1	J:152174 Weimer JM, Yokota Y, Stanco A, Stumpo DJ, Blackshear PJ, Anton ES, MARCKS modulates radial progenitor placement, proliferation and organization in the developing cerebral cortex. Development. 2009 Sep;136(17):2965-75
2	J:292913 Will L, Portegies S, van Schelt J, van Luyk M, Jaarsma D, Hoogenraad CC, Dynein activating adaptor BICD2 controls radial migration of upper-layer cortical neurons in vivo. Acta Neuropathol Commun. 2019 Oct 26;7(1):162
1	J:153606 Wodarczyk C, Rowe I, Chiaravalli M, Pema M, Qian F, Boletta A, A novel mouse model reveals that polycystin-1 deficiency in ependyma and choroid plexus results in dysfunctional cilia and hydrocephalus. PLoS One. 2009;4(9):e7137
2	J:302304 Xiao C, Grzonka M, Meyer-Gerards C, Mack M, Figge R, Bazzi H, Gradual centriole maturation associates with the mitotic surveillance pathway in mouse development. EMBO Rep. 2021 Feb 3;22(2):e51127
1*	J:263975 Xie Z, Hur SK, Zhao L, Abrams CS, Bankaitis VA, A Golgi Lipid Signaling Pathway Controls Apical Golgi Distribution and Cell Polarity during Neurogenesis. Dev Cell. 2018 Mar 26;44(6):725-740.e4
1*	J:249381 Yang AW, Sachs AJ, Nystuen AM, Deletion of Inpp5a causes ataxia and cerebellar degeneration in mice. Neurogenetics. 2015 Oct;16(4):277-85
1	J:185311 Yin H, Copley CO, Goodrich LV, Deans MR, Comparison of phenotypes between different vangl2 mutants demonstrates dominant effects of the Looptail mutation during hair cell development. PLoS One. 2012;7(2):e31988
2	J:135521 Yingling J, Youn YH, Darling D, Toyo-Oka K, Pramparo T, Hirotsune S, Wynshaw-Boris A, Neuroepithelial stem cell proliferation requires LIS1 for precise spindle orientation and symmetric division. Cell. 2008 Feb 8;132(3):474-86
1	J:147307 Yokota Y, Kim WY, Chen Y, Wang X, Stanco A, Komuro Y, Snider W, Anton ES, The adenomatous polyposis coli protein is an essential regulator of radial glial polarity and construction of the cerebral cortex. Neuron. 2009 Jan 15;61(1):42-56