scholarly article | Q13442814 |
P819 | ADS bibcode | 2020NatCo..11.2898H |
P356 | DOI | 10.1038/S41467-020-16597-8 |
P932 | PMC publication ID | 7283355 |
P698 | PubMed publication ID | 32518258 |
P50 | author | Daniel W Hagey | Q58406453 |
Jonas Muhr | Q61882850 | ||
P2093 | author name string | Maria Bergsland | |
Thomas Perlmann | |||
Florie Reynaud | |||
Nigel Kee | |||
Danijal Topcic | |||
P2860 | cites work | WGCNA: an R package for weighted correlation network analysis | Q21284194 |
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Switching modes in corticogenesis: mechanisms of neuronal subtype transitions and integration in the cerebral cortex | Q26796252 | ||
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Molecular pathways regulating mitotic spindle orientation in animal cells | Q27025216 | ||
Neurons derived from radial glial cells establish radial units in neocortex | Q28202112 | ||
Vertebrate neurogenesis is counteracted by Sox1-3 activity | Q28205692 | ||
The cell biology of neurogenesis | Q28284165 | ||
The timing of cortical neurogenesis is encoded within lineages of individual progenitor cells | Q28588455 | ||
Moderated estimation of fold change and dispersion for RNA-seq data with DESeq2 | Q29547403 | ||
Neuronal subtype specification in the cerebral cortex | Q29616190 | ||
Distinct roles for cyclin-dependent kinases in cell cycle control | Q29616480 | ||
Forced G1-phase reduction alters mode of division, neuron number, and laminar phenotype in the cerebral cortex. | Q30492178 | ||
Prolonged Mitosis of Neural Progenitors Alters Cell Fate in the Developing Brain | Q30696843 | ||
Data-Driven Phenotypic Dissection of AML Reveals Progenitor-like Cells that Correlate with Prognosis | Q30975629 | ||
Bayesian approach to single-cell differential expression analysis | Q33955732 | ||
The role of notch in promoting glial and neural stem cell fates | Q34132317 | ||
Sox2(+) adult stem and progenitor cells are important for tissue regeneration and survival of mice | Q34222321 | ||
Maps of random walks on complex networks reveal community structure | Q34740175 | ||
Cell cycle dependence of laminar determination in developing neocortex | Q34955579 | ||
Smart-seq2 for sensitive full-length transcriptome profiling in single cells. | Q34993864 | ||
Cyclin D1 promotes neurogenesis in the developing spinal cord in a cell cycle-independent manner | Q35105147 | ||
Symmetric versus asymmetric cell division during neurogenesis in the developing vertebrate central nervous system | Q36294221 | ||
Initiation of stem cell differentiation involves cell cycle-dependent regulation of developmental genes by Cyclin D | Q36603861 | ||
Neurogenesis at the brain-cerebrospinal fluid interface | Q37183028 | ||
Mammalian Par3 regulates progenitor cell asymmetric division via notch signaling in the developing neocortex | Q37330087 | ||
The cell-cycle state of stem cells determines cell fate propensity. | Q37504042 | ||
Asymmetric cell divisions and asymmetric cell fates | Q37540110 | ||
Asymmetric cell division: recent developments and their implications for tumour biology | Q37811896 | ||
The sox family of transcription factors: versatile regulators of stem and progenitor cell fate | Q38071714 | ||
Shaping our minds: stem and progenitor cell diversity in the mammalian neocortex | Q38073393 | ||
Transcriptional role of cyclin D1 in development revealed by a genetic-proteomic screen. | Q38347118 | ||
A high-resolution spatiotemporal atlas of gene expression of the developing mouse brain | Q38475717 | ||
Cell-cycle-independent transitions in temporal identity of mammalian neural progenitor cells | Q39838767 | ||
Deterministic Restriction on Pluripotent State Dissolution by Cell-Cycle Pathways. | Q40671579 | ||
Clonally related cortical cells show several migration patterns | Q41390268 | ||
The dynamics and regulators of cell fate decisions are revealed by pseudotemporal ordering of single cells | Q41861103 | ||
Neural stem and progenitor cells shorten S-phase on commitment to neuron production | Q41963873 | ||
Fate-restricted neural progenitors in the mammalian cerebral cortex. | Q42118528 | ||
Deterministic progenitor behavior and unitary production of neurons in the neocortex. | Q42130570 | ||
Oscillatory control of factors determining multipotency and fate in mouse neural progenitors | Q42258504 | ||
Lineage Tracing Using Cux2-Cre and Cux2-CreERT2 Mice | Q42728285 | ||
Single-Cell Analysis Reveals a Close Relationship between Differentiating Dopamine and Subthalamic Nucleus Neuronal Lineages. | Q42775377 | ||
Brain structure. Cell types in the mouse cortex and hippocampus revealed by single-cell RNA-seq | Q42776227 | ||
Mechanisms of gene regulation in human embryos and pluripotent stem cells | Q46237130 | ||
HMMR acts in the PLK1-dependent spindle positioning pathway and supports neural development | Q47140345 | ||
Developmental Emergence of Adult Neural Stem Cells as Revealed by Single-Cell Transcriptional Profiling | Q47560365 | ||
SOX5/6/21 Prevent Oncogene-Driven Transformation of Brain Stem Cells. | Q48205998 | ||
Sox2 acts in a dose-dependent fashion to regulate proliferation of cortical progenitors. | Q48421320 | ||
SOX2 expression levels distinguish between neural progenitor populations of the developing dorsal telencephalon. | Q50528161 | ||
Cell lineage in the cerebral cortex of the mouse studied in vivo and in vitro with a recombinant retrovirus | Q68115148 | ||
Progenitors resume generating neurons after temporary inhibition of neurogenesis by Notch activation in the mammalian cerebral cortex | Q81483189 | ||
Temporal patterning of apical progenitors and their daughter neurons in the developing neocortex | Q91898650 | ||
Temporal plasticity of apical progenitors in the developing mouse neocortex | Q92966231 | ||
P4510 | describes a project that uses | ImageJ | Q1659584 |
P433 | issue | 1 | |
P921 | main subject | cell fate commitment | Q14860192 |
P304 | page(s) | 2898 | |
P577 | publication date | 2020-06-09 | |
P1433 | published in | Nature Communications | Q573880 |
P1476 | title | CYCLIN-B1/2 and -D1 act in opposition to coordinate cortical progenitor self-renewal and lineage commitment | |
P478 | volume | 11 |
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