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Literature DB >> 28296636

Discovering sparse transcription factor codes for cell states and state transitions during development.

Leon A Furchtgott^1,2, Samuel Melton^1,3, Vilas Menon^4,5, Sharad Ramanathan^1,3,4,6,7.

Abstract

Computational analysis of gene expression to determine both the sequence of lineage choices made by multipotent cells and to identify the genes influencing these decisions is challenging. Here we discover a pattern in the expression levels of a sparse subset of genes among cell types in B- and T-cell developmental lineages that correlates with developmental topologies. We develop a statistical framework using this pattern to simultaneously infer lineage transitions and the genes that determine these relationships. We use this technique to reconstruct the early hematopoietic and intestinal developmental trees. We extend this framework to analyze single-cell RNA-seq data from early human cortical development, inferring a neocortical-hindbrain split in early progenitor cells and the key genes that could control this lineage decision. Our work allows us to simultaneously infer both the identity and lineage of cell types as well as a small set of key genes whose expression patterns reflect these relationships.

Entities: CellLine Chemical Disease Gene Species

Keywords: Transcriptomics; computational biology; developmental biology; human; mouse; stem cells; systems biology

Mesh：

Year: 2017 PMID： 28296636 PMCID： PMC5352226 DOI： 10.7554/eLife.20488

Source DB: PubMed Journal: Elife ISSN： 2050-084X Impact factor: 8.140

147 in total

1. SOX2 expression levels distinguish between neural progenitor populations of the developing dorsal telencephalon.

Authors: Scott R Hutton; Larysa H Pevny
Journal: Dev Biol Date: 2011-01-21 Impact factor: 3.582

2. Bcl11a (Ctip1) Controls Migration of Cortical Projection Neurons through Regulation of Sema3c.

Authors: Christoph Wiegreffe; Ruth Simon; Katharina Peschkes; Carolin Kling; Michael Strehle; Jin Cheng; Swathi Srivatsa; Pentao Liu; Nancy A Jenkins; Neal G Copeland; Victor Tarabykin; Stefan Britsch
Journal: Neuron Date: 2015-07-15 Impact factor: 17.173

3. Sp8 and COUP-TF1 reciprocally regulate patterning and Fgf signaling in cortical progenitors.

Authors: Ugo Borello; Mayur Madhavan; Ilya Vilinsky; Andrea Faedo; Alessandra Pierani; John Rubenstein; Kenneth Campbell
Journal: Cereb Cortex Date: 2013-01-10 Impact factor: 5.357

4. HMGA regulates the global chromatin state and neurogenic potential in neocortical precursor cells.

Authors: Yusuke Kishi; Yuki Fujii; Yusuke Hirabayashi; Yukiko Gotoh
Journal: Nat Neurosci Date: 2012-08 Impact factor: 24.884

5. Lack of hypoxia-inducible factor-1 alpha impairs midbrain neural precursor cells involving vascular endothelial growth factor signaling.

Authors: Javorina Milosevic; Martina Maisel; Florian Wegner; Julia Leuchtenberger; Roland H Wenger; Manfred Gerlach; Alexander Storch; Johannes Schwarz
Journal: J Neurosci Date: 2007-01-10 Impact factor: 6.167

6. RBPjkappa-dependent Notch function regulates Gata2 and is essential for the formation of intra-embryonic hematopoietic cells.

Authors: Alex Robert-Moreno; Lluís Espinosa; José Luis de la Pompa; Anna Bigas
Journal: Development Date: 2005-02-02 Impact factor: 6.868

7. Serotonergic inputs to FoxP2 neurons of the pre-locus coeruleus and parabrachial nuclei that project to the ventral tegmental area.

Authors: R L Miller; M K Stein; A D Loewy
Journal: Neuroscience Date: 2011-07-18 Impact factor: 3.590

8. NFIB is a governor of epithelial-melanocyte stem cell behaviour in a shared niche.

Authors: Chiung-Ying Chang; H Amalia Pasolli; Eugenia G Giannopoulou; Géraldine Guasch; Richard M Gronostajski; Olivier Elemento; Elaine Fuchs
Journal: Nature Date: 2013-02-06 Impact factor: 49.962

9. Krüppel-like factor 4 regulates intestinal epithelial cell morphology and polarity.

Authors: Tianxin Yu; Xi Chen; Wen Zhang; Juan Li; Ren Xu; Timothy C Wang; Walden Ai; Chunming Liu
Journal: PLoS One Date: 2012-02-24 Impact factor: 3.240

10. De Novo Prediction of Stem Cell Identity using Single-Cell Transcriptome Data.

Authors: Dominic Grün; Mauro J Muraro; Jean-Charles Boisset; Kay Wiebrands; Anna Lyubimova; Gitanjali Dharmadhikari; Maaike van den Born; Johan van Es; Erik Jansen; Hans Clevers; Eelco J P de Koning; Alexander van Oudenaarden
Journal: Cell Stem Cell Date: 2016-06-23 Impact factor: 24.633

11 in total

Review 1. Single-Cell RNA Sequencing: A New Window into Cell Scale Dynamics.

Authors: Sabyasachi Dasgupta; Gary D Bader; Sidhartha Goyal
Journal: Biophys J Date: 2018-07-11 Impact factor: 4.033

Review 2. Clustering single cells: a review of approaches on high-and low-depth single-cell RNA-seq data.

Authors: Vilas Menon
Journal: Brief Funct Genomics Date: 2018-07-01 Impact factor: 4.241

3. Dynamics of embryonic stem cell differentiation inferred from single-cell transcriptomics show a series of transitions through discrete cell states.

Authors: Sumin Jang; Sandeep Choubey; Leon Furchtgott; Ling-Nan Zou; Adele Doyle; Vilas Menon; Ethan B Loew; Anne-Rachel Krostag; Refugio A Martinez; Linda Madisen; Boaz P Levi; Sharad Ramanathan
Journal: Elife Date: 2017-03-15 Impact factor: 8.140

Review 4. Co-expression in Single-Cell Analysis: Saving Grace or Original Sin?

Authors: Megan Crow; Jesse Gillis
Journal: Trends Genet Date: 2018-08-23 Impact factor: 11.639

5. Unsupervised Trajectory Analysis of Single-Cell RNA-Seq and Imaging Data Reveals Alternative Tuft Cell Origins in the Gut.

Authors: Charles A Herring; Amrita Banerjee; Eliot T McKinley; Alan J Simmons; Jie Ping; Joseph T Roland; Jeffrey L Franklin; Qi Liu; Michael J Gerdes; Robert J Coffey; Ken S Lau
Journal: Cell Syst Date: 2017-11-15 Impact factor: 10.304