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. 2011 Sep 7;479(7371):131-4.
doi: 10.1038/nature10448.

Derivation of haploid embryonic stem cells from mouse embryos

Martin Leeb  1 Anton Wutz
Affiliations

Derivation of haploid embryonic stem cells from mouse embryos

Martin Leeb et al. Nature. .

Abstract

Most animals are diploid, but haploid-only and male-haploid (such as honeybee and ant) species have been described. The diploid genomes of complex organisms limit genetic approaches in biomedical model species such as mice. To overcome this problem, experimental induction of haploidy has been used in fish. Haploid development in zebrafish has been applied for genetic screening. Recently, haploid pluripotent cell lines from medaka fish (Oryzias latipes) have also been established. In contrast, haploidy seems less compatible with development in mammals. Although haploid cells have been observed in egg cylinder stage parthenogenetic mouse embryos, most cells in surviving embryos become diploid. Here we describe haploid mouse embryonic stem cells and show their application in forward genetic screening.

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Figures

Figure 1
Figure 1. Derivation of haploid ESCs
Flow analysis of DNA after PI staining of (a) diploid control ESCs, (b) haploid ESC line HAP-1 at passage 7 (p7) and (c) HAP-1 (p11) after sorting at p7. (d) Colony morphology of haploid ESCs (HAP-1). (ef) Chromosome spreads of HAP-3 (e) and HAP-1 (f), (Scale bar = 10 μm). (g) CGH analysis of HAP-1 and HAP-2 ESCs and control male CBA kidney DNA. Relative copynumber is plotted at 200 kb resolution using a log2 scale. Genomic positions indicated by blue bars (top) are enlarged at 40 kb resolution in (h); CBA control (black), HAP-1 (red) and HAP-2 (green).
Figure 2
Figure 2. Expression analysis of haploid ESCs
(a) Immunofluorescence shows Nanog protein (red) in haploid (HAP-1) and diploid ESCs, and Gata4 (green) in differentiated cells (Scale bar = 10 μm). (b) Expression of pluripotency markers in haploid and diploid (set to 1) ESCs by real time PCR. Errorbars represent standard deviation (n=3). (c) Scatter plot showing log2 transformed average expression values from gene expression profiles of 3 haploid (HAP-1, HAP-2 and HTG-1) and three diploid J1 ESC lines for 45,001 probesets (r is the Paerson correlation coefficient; red lines indicate 2-fold up- and down-regulation). (d) Diagram of more than 2-fold up- and down-regulated genes in haploid ESCs.
Figure 3
Figure 3. Developmental potential of haploid ESCs
(a) GFP marked haploid HAP-2 ESCs (p18) contribute to chimeric embryos at E12.5. 6 out of 9 embryos showed GFP contribution. A GFP negative embryo is shown as a control (below). (b) Representative flow analyses of DNA content of all cells (above) and GFP positive cells (below) extracted from a chimeric E12.5 embryo are shown. All 6 embryos gave similar results. (c) Live born chimeric mice were obtained from GFP marked HAP-2 ESCs. (d) Chimeric mice obtained from injection of HAP-1 ESCs into C57BL/6 blastocysts (black) show coat colour contribution from the ESCs (agouti).
See this image and copyright information in PMC

Comment in

References

References used only in the Methods section

    1. Wutz A, Jaenisch R. A shift from reversible to irreversible X inactivation is triggered during ES cell differentiation. Mol Cell. 2000;5:695–705. - PubMed
    1. Leeb M, et al. Polycomb complexes act redundantly to repress genomic repeats and genes. Genes Dev. 2010;24:265–76. - PMC - PubMed
    1. Shen X, et al. EZH1 mediates methylation on histone H3 lysine 27 and complements EZH2 in maintaining stem cell identity and executing pluripotency. Mol Cell. 2008;32:491–502. - PMC - PubMed
    1. Kong J, Zhu F, Stalker J, Adams DJ. iMapper: a web application for the automated analysis and mapping of insertional mutagenesis sequence data against Ensembl genomes. Bioinformatics. 2008;24:2923–5. - PMC - PubMed
    1. Savarese F, Flahndorfer K, Jaenisch R, Busslinger M, Wutz A. Hematopoietic precursor cells transiently reestablish permissiveness for X inactivation. Mol Cell Biol. 2006;26:7167–77. - PMC - PubMed

References

    1. Otto SP, Jarne P. Evolution. Haploids--hapless or happening? Science. 2001;292:2441–3. - PubMed
    1. Wiellette E, et al. Combined haploid and insertional mutation screen in the zebrafish. Genesis. 2004;40:231–40. - PubMed
    1. Yi M, Hong N, Hong Y. Generation of medaka fish haploid embryonic stem cells. Science. 2009;326:430–3. - PubMed
    1. Kaufman MH, Robertson EJ, Handyside AH, Evans MJ. Establishment of pluripotential cell lines from haploid mouse embryos. J Embryol Exp Morphol. 1983;73:249–61. - PubMed
    1. Latham KE, Akutsu H, Patel B, Yanagimachi R. Comparison of gene expression during preimplantation development between diploid and haploid mouse embryos. Biol Reprod. 2002;67:386–92. - PubMed

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