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Boolean modelling reveals new regulatory connections between transcription factors orchestrating the development of the ventral spinal cordThe Rose-comb mutation in chickens constitutes a structural rearrangement causing both altered comb morphology and defective sperm motilityMisregulation of Alternative Splicing in a Mouse Model of Rett SyndromeA cis-regulatory mutation of PDSS2 causes silky-feather in chickensFragile X Proteins FMRP and FXR2P Control Synaptic GluA1 Expression and Neuronal Maturation via Distinct Mechanisms.Construction and characterization of a novel 13.34-fold chicken bacterial artificial chromosome library.Identification and characterization of bovine regulator of telomere length elongation helicase gene (RTEL): molecular cloning, expression distribution, splice variants and DNA methylation profile.Advanced technologies for genomic analysis in farm animals and its application for QTL mapping.Methyl-CpG binding domain protein 1 regulates localization and activity of Tet1 in a CXXC3 domain-dependent manner.The crest phenotype in chicken is associated with ectopic expression of HOXC8 in cranial skin.Positive feedback between RNA-binding protein HuD and transcription factor SATB1 promotes neurogenesisMDM2 inhibition rescues neurogenic and cognitive deficits in a mouse model of fragile X syndromeMethyl-CpG-Binding Protein MBD1 Regulates Neuronal Lineage Commitment through Maintaining Adult Neural Stem Cell IdentityRemote links: Redesigning maternity care for Aboriginal women from remote communities in Northern Australia - A comparative cohort study.Inhibition of miR-15a Promotes BDNF Expression and Rescues Dendritic Maturation Deficits in MeCP2-Deficient Neurons.In vitro culture and characterization of putative porcine embryonic germ cells derived from domestic breeds and Yucatan mini pig embryos at Days 20-24 of gestation.Integrative Single-Cell Transcriptomics Reveals Molecular Networks Defining Neuronal Maturation During Postnatal Neurogenesis.Regulation of H3K27me3 and H3K4me3 during early porcine embryonic development.Challenges to maternal health care utilization among ethnic minority women in a resource-poor region of Sichuan Province, China.Imaging Voltage in Genetically Defined Neuronal Subpopulations with a Cre Recombinase-Targeted Hybrid Voltage Sensor.Passage number of porcine embryonic germ cells affects epigenetic status and blastocyst rate following somatic cell nuclear transfer.Dynamic changes in epigenetic marks and gene expression during porcine epiblast specification.Epigenetic regulation of gene expression in porcine epiblast, hypoblast, trophectoderm and epiblast-derived neural progenitor cells.Porcine pluripotency cell signaling develops from the inner cell mass to the epiblast during early development.[Preliminary analysis on China Agricultural University chicken resource population based on genomic scanning].Loss of MeCP2 in immature neurons leads to impaired network integrationRegulatory discrimination of mRNAs by FMRP controls mouse adult neural stem cell differentiationEnrichment of G4 DNA motif in transcriptional regulatory region of chicken genomeReduced mitochondrial fusion and Huntingtin levels contribute to impaired dendritic maturation and behavioral deficits in Fmr1-mutant mice
P50
Q21090580-26F2D0C6-D1B7-4D39-B5AD-2AE812976928Q27333184-BDA8A143-E64D-4072-A77B-C670797E2E67Q28552209-8F2EF85E-0721-46E4-963E-16C0DBAEBC54Q28656373-6CCF3FDC-E0D3-4F20-BADF-835AFDC52D83Q30279218-18FB4466-2A0F-4D7D-93FB-75BD778303F9Q33196368-FAAB33FF-406E-45E0-9AE6-381509935FA2Q33276952-ADAB54B6-F87D-4045-8908-90879308A415Q33394266-4FCC2056-A9FC-4F13-BAFF-27F2E69F6FCCQ33878027-DC8CE86F-EAD0-4C38-AFEE-FF7CB1EEDF54Q34238442-2E8881E1-9A62-4536-86B7-F5BF40F410FBQ36056708-16F1BAF5-82C4-482A-9DAF-4B0EBB0C49D8Q37198789-B9969CB3-6E46-40F2-9A55-5FF09BDA3617Q37592163-BB849205-0CAC-42D6-A54E-C27322E0A06DQ39135898-EE91EBE8-058A-400D-A15E-A060095F2F8FQ39951877-7047E3BB-5352-4D43-8F57-864A81C8EAC8Q42772711-63039859-6894-4055-926E-79B813C4FB14Q42773260-A6158C70-2EBA-4830-A698-65E9B847D8ECQ43084358-8520F050-992A-4DA9-A2E1-BC0D06B5568EQ45745375-B383C3A7-CDE2-490B-B156-BE223B42FD7CQ47659101-77C7A62A-3188-48B8-93F7-7E0088E22950Q50670887-2AB5A7BC-38BB-46F0-897C-69BD12CED267Q51443747-7725A1FD-CAAA-404E-9E9F-0309531E63E7Q51851642-FBF6C013-7C63-4460-BFE2-7238309F989FQ51930074-9F77EDE3-2DF4-4722-ACC2-F322F9EB34D4Q54728310-1DF2B6FD-40CD-48D5-8891-2DC2360CB729Q57055702-756E5D25-DAB5-46DB-8459-27C5D4D844D1Q58106909-D2AB7022-DA70-44C6-8E5F-4E7CFD74FA1BQ79716023-3BDCA0FB-2C85-4112-A805-EF78E2AFB1A0Q91451421-1C921FE0-968E-4870-BE10-1AC21FAA1204
P50
description
researcher
@en
հետազոտող
@hy
name
Yu Gao
@ast
Yu Gao
@en
Yu Gao
@es
Yu Gao
@nl
Yu Gao
@sl
type
label
Yu Gao
@ast
Yu Gao
@en
Yu Gao
@es
Yu Gao
@nl
Yu Gao
@sl
prefLabel
Yu Gao
@ast
Yu Gao
@en
Yu Gao
@es
Yu Gao
@nl
Yu Gao
@sl
P106
P31
P496
0000-0001-5090-8250
P569
2000-01-01T00:00:00Z