NCAM1 association study of bipolar disorder and schizophrenia: polymorphisms and alternatively spliced isoforms lead to similarities and differences.
about
The genetics of bipolar disorder: genome ‘hot regions,’ genes, new potential candidates and future directionsSpectrin-based skeleton as an actor in cell signalingReciprocal Interactions between Cell Adhesion Molecules of the Immunoglobulin Superfamily and the Cytoskeleton in NeuronsEffects of antipsychotics on dentate gyrus stem cell proliferation and survival in animal models: a critical updateSialic acids in the brain: gangliosides and polysialic acid in nervous system development, stability, disease, and regenerationIdentification of single- and multiple-class specific signature genes from gene expression profiles by group marker indexQuaking regulates Hnrnpa1 expression through its 3' UTR in oligodendrocyte precursor cellsThe Immune Syntax Revisited: Opening New Windows on Language EvolutionPossible functional links among brain- and skull-related genes selected in modern humansGlobularity and language-readiness: generating new predictions by expanding the set of genes of interestAnalysis of 94 candidate genes and 12 endophenotypes for schizophrenia from the Consortium on the Genetics of Schizophrenia.Loss of function studies in mice and genetic association link receptor protein tyrosine phosphatase α to schizophrenia.Gene expression in cortical interneuron precursors is prescient of their mature function.Steroids as external temporal codes act via microRNAs and cooperate with cytokines in differential neurogenesisGene processing control loops suggested by sequencing, splicing, and RNA folding.Genome-wide association study of bipolar I disorder in the Han Chinese population.Dysfunctional gene splicing as a potential contributor to neuropsychiatric disorders.Alternatively Spliced Genes as Biomarkers for Schizophrenia, Bipolar Disorder and Psychosis: A Blood-Based Spliceome-Profiling Exploratory Study.Narcolepsy presenting as schizophrenia: a literature review and two case reportsImmobilized pool of NCAM180 in the postsynaptic membrane is homeostatically replenished by the flux of NCAM180 from extrasynaptic regions.Characterisation of genetic variation in ST8SIA2 and its interaction region in NCAM1 in patients with bipolar disorderiCLIP identifies novel roles for SAFB1 in regulating RNA processing and neuronal functionConvergent functional genomics of schizophrenia: from comprehensive understanding to genetic risk prediction.The fibroblast growth factor family: neuromodulation of affective behavior.NCAM Regulates Inhibition and Excitability in Layer 2/3 Pyramidal Cells of Anterior Cingulate CortexPolysialylated NCAM and ephrinA/EphA regulate synaptic development of GABAergic interneurons in prefrontal cortex.Identification of genetic loci underlying the phenotypic constructs of autism spectrum disorders.Vinorelbine and epirubicin share common features with polysialic acid and modulate neuronal and glial functionsBrain structure, cognition and negative symptoms in schizophrenia are associated with serum levels of polysialic acid-modified NCAM.L1 and NCAM adhesion molecules as signaling coreceptors in neuronal migration and process outgrowthBridging the Gap between Genes and Language Deficits in Schizophrenia: An Oscillopathic Approach.Regional and duration of illness differences in the alteration of NCAM-180 mRNA expression within the cortex of subjects with schizophrenia.Abnormal expression of myelination genes and alterations in white matter fractional anisotropy following prenatal viral influenza infection at E16 in mice.Brain development needs sugar: the role of polysialic acid in controlling NCAM functions.Molecules and mechanisms involved in the generation and migration of cortical interneuronsAn integrative functional genomics approach for discovering biomarkers in schizophrenia.Polysialic acid: biosynthesis, novel functions and applications.NCAM1 is the Target of miRNA-572: Validation in the Human Oligodendroglial Cell Line.ChIP-chip analysis of neurexins and other candidate genes for addiction and neuropsychiatric disorders.Age of Onset in Schizophrenia Spectrum Disorders: Complex Interactions between Genetic and Environmental Factors.
P2860
Q22251105-431F169D-A50B-4156-B46C-A07F11D19285Q24616347-C42CE308-5F8C-49BD-80C4-CF6DFF3EFAA0Q26766627-B8A4BB78-5F32-4C67-9AB3-DCF8BC03C7CDQ26823735-9F79547A-F78F-4B90-A1A6-42C93A6EC822Q26995291-A06884A2-6C87-45DC-B58C-081B833E463BQ28476766-8AFBEB6D-6EDF-48E9-A59F-7DDED3E22503Q28576146-D857BA2C-F27C-453F-B4B6-8A4C04C8B573Q28602830-8EC5BA9D-8285-41CC-97FA-CD8B25070EE8Q28648399-F693F4D1-E907-4A40-BC01-49835232D07DQ28651479-EEDA0E0F-28BA-4ACB-8D11-CD1D683C277EQ30450376-AC3ABE88-F620-46A3-87E3-5FEFD290FC8CQ30462812-1B7FD916-B995-4EDA-8908-49C3903203F4Q30486244-1E577978-FD81-4447-B002-50FC18B9403CQ33728146-0C03D300-37F6-4B2F-96EF-DEC463D7F9DAQ33774731-AE292425-2555-4C86-962D-C852E901ABE9Q34109817-AA8C0789-C0AE-4B5D-B535-2DC9CFD3703DQ34861234-CCAA2DD7-4C08-41D0-B393-A03C18435BC6Q34877401-7B7B7B39-9F74-4859-9A82-CD7765756A77Q35018970-061D059E-1CAE-451E-ADF3-DECE38D4FEFCQ35067842-DC7806B3-3394-4CF9-9C37-707FEA6234B1Q35126739-65C43975-46A3-4616-B274-844BE8318C2FQ35875612-94792BB9-6021-4ABB-AD1E-8A439A0A28F7Q36189837-7ED8A885-E420-4DEE-AD2A-321730A909CBQ36334413-DAF7238B-B7C4-4DFC-B4EB-E548B90AD5BDQ36339112-8358E33A-319B-4A47-9F93-243AA2F4614DQ36443994-D265FE44-FE5E-4BAA-BB0D-6584D1F64298Q36672907-6E82C803-7F3E-4FB2-9A5E-7E53B1437543Q36996210-00ADE815-3453-43DC-A58D-A451714C3429Q37058646-3B794F7B-DEB2-4363-AE4D-FA41D370A05FQ37078762-15177C41-6ADF-42D7-89F7-066B84123C22Q37194932-84D53A7C-3D85-4A1A-A2A5-D693A231552FQ37294170-936A8C0D-1F3F-46B8-B38D-F9393E62AD8AQ37327075-5E4C2792-3C7A-4619-B78B-7F204084CFC9Q37474857-B5410E11-2A0F-423C-8D63-7EB6071DFB06Q37723283-D266E4C3-C537-44F1-8D49-9150C26F8F06Q37966594-815E7B51-0ED4-4235-9F78-61C1BC98DD83Q38265379-DB15B88A-38BA-4D5B-A512-4F9E23CB1458Q38711097-CDDB4DC9-EA04-47A3-8B6E-39CFAD6A193CQ39766038-C87B8855-C753-4C96-BCBC-62C087B871D4Q39928385-9F038DEC-4A19-4197-A7D1-7668D5DD8867
P2860
NCAM1 association study of bipolar disorder and schizophrenia: polymorphisms and alternatively spliced isoforms lead to similarities and differences.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
NCAM1 association study of bip ...... similarities and differences.
@ast
NCAM1 association study of bip ...... similarities and differences.
@en
type
label
NCAM1 association study of bip ...... similarities and differences.
@ast
NCAM1 association study of bip ...... similarities and differences.
@en
prefLabel
NCAM1 association study of bip ...... similarities and differences.
@ast
NCAM1 association study of bip ...... similarities and differences.
@en
P2093
P2860
P1433
P1476
NCAM1 association study of bip ...... similarities and differences.
@en
P2093
Brandi Rollins
Marquis P Vawter
Mary E Atz
P2860
P356
10.1097/YPG.0B013E328012D850
P407
P577
2007-04-01T00:00:00Z