1. Solter D, Knowles BB (1978) Monoclonal antibody defining a
stage-specific mouse embryonic antigen (SSEA-1). Proc Natl
Acad Sci USA 78:5565–5569
2. Bird JM, Kimber SJ (1984) Oligosaccharides containing fucose
linked α(1–3) and α(1–4) to N-acetylglucosamine cause decompaction of mouse morulae. Dev Biol 104:449–460
3. Muramatsu T (1988) Alterations of cell-surface carbohydrates
during differentiation and development. Biochimie 70:1587–1596
4. Toumadje A, Kusumoto K, Parton A, Mericko P, Dowell L, Ma
G, Chen L, Barnes DW, Sato JD (2003) Pluripotent differentiation
in vitro of murine ES-D3 embryonic stem cells. In Vitro Cell Dev
Biol Anim 39:449–453
5. Capela A, Temple S (2002) LeX/SSEA-1 is expressed by adult
mouse CNS stem cells, identifying them as nonependymal. Neuron 35:865–875
6. Nishihara S, Iwasaki H, Nakajima K, Togayachi A, Ikehara Y,
Kudo T, Kushi Y, Furuya A, Shitara K, Narimatsu H (2003) α1,3fucosyltransferase IX (Fut9) determines lewis X expression in
brain. Glycobiol 13:445–455
7. Kumar A, Torii T, Ishino Y, Muraoka D, Yoshimura T, Togayachi
A, Narimatsu H, Ikenaka K, Hitoshi S (2013) The lewis X-related
α1,3-fucosyltransferase, Fut10, is required for the maintenance of
stem cell populations. J Biol Chem 288:28859–28868
8. Yagi H, Yanagisawa M, Kato K, Yu RK (2010) Lysosome-associated membrane protein 1 is a major SSEA-1-carrier protein in
mouse neural stem cells. Glycobiology 20:976–981
9. Yagi H, Saito T, Yanagisawa M, Yu RK, Kato K (2012) Lewis
X-carrying N-glycans regulate the proliferation of mouse embryonic neural stem cells via the notch signaling pathway. J Biol
Chem 287:24356–24364
10. Kudo T, Kaneko M, Iwasaki H, Togayachi A, Nishihara S,
Abe K, Narimatsu H (2004) Normal embryonic and germ cell
18. 19. 20. 21. 22. 23. 24. 25. 26. development in mice lacking α1,3-fucosyltransferase IX (Fut9)
which show disappearance of stage specific embryonic antigen 1.
Mol Cell Biol 24:4221–4228
Kudo T, Fujii T, Ikegami S, Inokuchi K, Takayama Y, Ikehara
Y, Nishihara S, Togayachi A, Takahashi S, Tachibana K, Yuasa
S, Narimatsu H (2007) Mice lacking α1,3-fucosyltransferase
IX demonstrate disappearance of lewis x structure in brain and
increased anxiety-like behaviors. Glycobiology 17:1–9
Schizophrenia Working Group of the Psychiatric Genomics
Consortium (2014) Biological insights from 108 schizophreniaassociated genetic loci. Nature 511:421–427
Goes FS, McGrath J, Avramopoulos D, Wolyniec P, Pirooznia
M, Ruczinski I, Nestadt G, Kenny EE, Vacic V, Peters I, Lencz T,
Darvasi A, Mulle JG, Warren ST, Pulver AE (2015) Genome-wide
association study of schizophrenia in Ashkenazi Jews. Am J Med
Genet B 168:649–659
Pardiñas AF, Holmans P, Pocklington AJ, Escott-Price V, Ripke
S, Carrera N, Legge SE, Bishop S, Cameron D, Hamshere ML
(2018) Common schizophrenia alleles are enriched in mutationintolerant genes and in regions under strong background selection.
Nat Genet 50:381–389
Lam M, Chen C-Y, Li Z, Martin AR, Bryois J, Ma X, Gaspar H,
Ikeda M, Benyamin B, Brown BC (2019) Comparative genetic
architectures of schizophrenia in east Asian and European populations. Nat Genet 51:1670–1678
Yao X, Glessner JT, Li J, Qi X, Hou X, Zhu C, Li X, March
ME, Yang L, Mentch FD, Hain HS, Meng X, Xia Q, Hakonarson H, Li J (2021) Integrative analysis of genome-wide association studies identifies novel loci associated with neuropsychiatric disorders. Transl Psychiatry 11:69
Naruse M, Ishino Y, Kumar A, Ono K, Takebayashi H, Yamaguchi M, Ishizaki Y, Ikenaka K, Hitoshi S (2016) The dorsoventral
boundary of the germinal zone is a specialized niche for the generation of cortical oligodendrocytes during a restricted temporal
window. Cereb Cortex 26:2800–2810
Ishino Y, Hayashi Y, Naruse M, Tomita K, Sanbo M, Fuchigami
T, Fujiki R, Hirose K, Toyooka Y, Fujimori T, Ikenaka K, Hitoshi
S (2014) Bre1a, a histone H2B ubiquitin ligase, regulates the cell
cycle and differentiation of neural precursor cells. J Neurosci
34:3067–3307
Hayashi Y, Nihonmatsu-Kikuchi N, Yu X, Ishimoto K, Hisanaga
SI, Tatebayashi Y (2011) A novel, rapid, quantitative cell-counting
method reveals oligodendroglial reduction in the frontopolar cortex in major depressive disorder. Mol Psychiatry 16:1155–1158
Molyneaux BJ, Brettler AC, Chen H-H, Hrvatin S, Rinn JL, P,
(2015) DeCoN: genome-wide analysis of in vivo transcriptional
dynamics during pyramidal neuron fate selection in neocortex.
Neuron 85:275–288
Kim D, Pertea G, Trapnell C, Pimentel H, Kelley R, Salzberg
SL (2013) TopHat2: accurate alignment of transcriptomes in the
presence of insertions, deletions and gene fusions. Genome Biol
14:R36
Liao Y, Smyth GK, Shi W (2014) featureCounts: an efficient general purpose program for assigning sequence reads to genomic
features. Bioinformatics 30:923–930
Zhou X, Lindsay H, Robinson MD (2014) Robustly detecting differential expression in RNA sequencing data using observation
weights. Nucleic Acids Res 42:e91
Agirman G, Broix L, Nguyen L (2017) Cerebral cortex development: an outside-in perspective. FEBS Lett 591:3978–3992
Garcia-Frigola C, Carreres MI, Vegar C, Herrera E (2007) Gene
delivery into mouse retinal ganglion cells by in utero electroporation. BMC Dev Biol 7:1–10
Chaubey S, Wolfe JH (2013) Transplantation of CD15-enriched
murine neural stem cells increases total engraftment and shifts
13
differentiation toward the oligodendrocyte lineage. Stem Cells
Transl Med 2:444–454
27. Luque-Molina I, Khatri P, Schmidt-Edelkraut U, Simeonova IK,
Hölzl-Wenig G, Mandl C, Ciccolini F (2017) Bone morphogenetic protein promotes lewis x stage-specific embryonic antigen
1 expression thereby interfering with neural precursor and stem
cell proliferation. Stem Cells 35:2417–2429
2 8. Benes FM, Davidson J, Bird ED (1986) Quantitative cytoarchitectural studies of the cerebral cortex of schizophrenics. Arch Gen
Psychiatry 43:31–35
29. Chana G, Landau S, Beasley C, Everall IP, Cotter D (2003)
Two-dimensional assessment of cytoarchitecture in the anterior
13
Neurochemical Research
cingulate cortex in major depressive disorder, bipolar disorder,
and schizophrenia: evidence for decreased neuronal somal size
and increased neuronal density. Biol Psychiatry 53:1086–1098
30. Jakobs TC, Ben Y, Masland RH (2003) CD15 immunoreactive
amacrine cells in the mouse retina. J Comp Neurol 465:361–371
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