The <i>Drosophila</i> embryo at single-cell transcriptome resolution

Nikos Karaiskos; Philipp Wahle; Jonathan Alles; Anastasiya Boltengagen; Salah Ayoub; Claudia Kipar; Christine Kocks; Nikolaus Rajewsky; Robert P. Zinzen

doi:10.1126/science.aan3235

The <i>Drosophila</i> embryo at single-cell transcriptome resolution

Nikos Karaiskos(Max Delbrück Center), Philipp Wahle(International Society of Differentiation), Jonathan Alles(Max Delbrück Center), Anastasiya Boltengagen(Max Delbrück Center), Salah Ayoub(Max Delbrück Center), Claudia Kipar(International Society of Differentiation), Christine Kocks(Max Delbrück Center), Nikolaus Rajewsky(Max Delbrück Center), Robert P. Zinzen(International Society of Differentiation)

Science

August 31, 2017

10.1126/science.aan3235

Cited by 458

Abstract

3D gene expression blueprint of the fly When looking at populations of cells, features such as cell heterogeneity and localization are masked. However, single-cell sequencing reveals cellular heterogeneity and rare cell types. At the onset of gastrulation, the fly embryo consists of about 6000 cells with distinct gene expression profiles. Karaiskos et al. developed an algorithm to generate an interactive three-dimensional (3D) “virtual embryo,” with the expression of more than 8000 genes per cell measured for most cells (see the Perspective by Stadler and Eisen). The virtual embryo offers insights into developmental mechanisms—from local expression of regulators such as transcription factors and long noncoding RNAs to spatial modulation of signaling pathways. Science , this issue p. 194 ; see also p. 172

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