Osteopontin attenuates aging-associated phenotypes of hematopoietic stem cells.

Abstract

Corrigendum15 May 2017free access Osteopontin attenuates aging-associated phenotypes of hematopoietic stem cells Novella Guidi Novella Guidi Search for more papers by this author Mehmet Sacma Mehmet Sacma Search for more papers by this author Ludger Ständker Ludger Ständker Search for more papers by this author Karin Soller Karin Soller Search for more papers by this author Gina Marka Gina Marka Search for more papers by this author Karina Eiwen Karina Eiwen Search for more papers by this author Johannes M Weiss Johannes M Weiss Search for more papers by this author Frank Kirchhoff Frank Kirchhoff Search for more papers by this author Tanja Weil Tanja Weil Search for more papers by this author Jose A Cancelas Jose A Cancelas Search for more papers by this author Maria Carolina Florian Maria Carolina Florian Search for more papers by this author Hartmut Geiger Hartmut Geiger orcid.org/0000-0001-7314-9891 Search for more papers by this author Novella Guidi Novella Guidi Search for more papers by this author Mehmet Sacma Mehmet Sacma Search for more papers by this author Ludger Ständker Ludger Ständker Search for more papers by this author Karin Soller Karin Soller Search for more papers by this author Gina Marka Gina Marka Search for more papers by this author Karina Eiwen Karina Eiwen Search for more papers by this author Johannes M Weiss Johannes M Weiss Search for more papers by this author Frank Kirchhoff Frank Kirchhoff Search for more papers by this author Tanja Weil Tanja Weil Search for more papers by this author Jose A Cancelas Jose A Cancelas Search for more papers by this author Maria Carolina Florian Maria Carolina Florian Search for more papers by this author Hartmut Geiger Hartmut Geiger orcid.org/0000-0001-7314-9891 Search for more papers by this author Author Information Novella Guidi, Mehmet Sacma, Ludger Ständker, Karin Soller, Gina Marka, Karina Eiwen, Johannes M Weiss, Frank Kirchhoff, Tanja Weil, Jose A Cancelas, Maria Carolina Florian and Hartmut Geiger The EMBO Journal (2017)36:1463-1463https://doi.org/10.15252/embj.201796968 This article corrects the following: Osteopontin attenuates aging-associated phenotypes of hematopoietic stem cells02 March 2017 ToolsAdd to favoritesDownload CitationsTrack CitationsPermissions ShareFacebookTwitterLinked InMendeleyWechatReddit Figures & Info We have found that panel A in Figure 5 (subpanel Old + C) is mistakenly a duplication of panel H in Figure 4 (subpanel Old + FL). According to our inspection of the original data sets, this is due to a mistake during the assembly of the panels. We show here the amended correct images for Figure 5, panel A (Old + C). Figure 5.Figure 5A, with correct panel Old + C. Download figure Download PowerPoint The change does not affect the original conclusions presented. We apologize for this mistake. All authors approve of this correction. Related Source data for Figure 5A, panel Old + C. Red: AcH4K16; Green: tubulin; Blue: DAPI. Previous ArticleNext Article Read MoreAbout the coverClose modalView large imageVolume 36,Issue 10,15 May 2017Cover: The balance of brain organoid differentiation. This drawing illustrates the remarkable self-organization capacity of cerebral organoids that allows them to recapitulate human brain development in vitro. The authors show that organizing centers induce the formation of dorsal and ventral progenitor zones separated by a defined boundary – like a yin-yang symbolizing the balance between distinct but complementary entities. Color code: Dark red = Cortical hem signaling center Red = Pax6 positive radial glia progenitors in the dorsal forebrain Magenta = TBR2 positive intermediate progenitor cells in the dorsal forebrain Yellow-green = GSX2 positive progenitors in the ventral forebrain Green = DLX2 progenitors and young neurons in the ventral forebrain Cyan = VGAT positive interneurons migrating from ventral to dorsal forebrain Purple = Excitatory neurons generated in the dorsal forebrain From Magdalena Renner, Madeline A Lancaster, Jürgen A Knoblich and colleagues: Self-organized developmental patterning and differentiation in cerebral organoids. For details, see the Article on p 1316, also highlighted by Dias and Guillemot on p 1299. Artwork by Beata Edyta Mierzwa, Institute of Molecular Biotechnology of the Austrian Academy of Sciences (IMBA), Vienna Biocenter (VBC), Vienna, Austria; (beatascienceart.com). Volume 36Issue 1015 May 2017In this issue FiguresRelatedDetailsLoading ...