Identity and dynamics of mammary stem cells during branching morphogenesis

[1]  Mauro J. Muraro,et al.  A Single-Cell Transcriptome Atlas of the Human Pancreas , 2016, Cell systems.

[2]  Mauro J. Muraro,et al.  De Novo Prediction of Stem Cell Identity using Single-Cell Transcriptome Data , 2016, Cell stem cell.

[3]  Shuqiang Li,et al.  CEL-Seq2: sensitive highly-multiplexed single-cell RNA-Seq , 2016, Genome Biology.

[4]  M. Gallardo,et al.  Stem and progenitor cell division kinetics during postnatal mouse mammary gland development , 2015, Nature Communications.

[5]  Z. Werb,et al.  Adaptive Immune Regulation of Mammary Postnatal Organogenesis. , 2015, Developmental cell.

[6]  M. Bissell,et al.  Mammary gland development: cell fate specification, stem cells and the microenvironment , 2015, Development.

[7]  Li Yang,et al.  Identification of multipotent mammary stem cells by protein C receptor expression , 2014, Nature.

[8]  R. van Amerongen,et al.  The influence of tamoxifen on normal mouse mammary gland homeostasis , 2014, Breast Cancer Research.

[9]  S. Menon,et al.  Mammary stem cells have myoepithelial cell properties , 2014, Nature Cell Biology.

[10]  J. Visvader,et al.  Mammary stem cells and the differentiation hierarchy: current status and perspectives , 2014, Genes & development.

[11]  Ralph Weissleder,et al.  Imaging windows for long-term intravital imaging , 2014, Intravital.

[12]  Hans Clevers,et al.  Intestinal crypt homeostasis revealed at single stem cell level by in vivo live-imaging , 2014, Nature.

[13]  Jane E. Visvader,et al.  In situ identification of bipotent stem cells in the mammary gland , 2014, Nature.

[14]  P. Osten,et al.  Molecular hierarchy of mammary differentiation yields refined markers of mammary stem cells , 2013, Proceedings of the National Academy of Sciences.

[15]  Ophir D Klein,et al.  Lgr5-expressing cells are sufficient and necessary for postnatal mammary gland organogenesis. , 2013, Cell reports.

[16]  J. van Rheenen,et al.  Brief Report: Intravital Imaging of Cancer Stem Cell Plasticity in Mammary Tumors , 2012, Stem cells.

[17]  H. Clevers,et al.  Developmental stage‐specific contribution of LGR5+ cells to basal and luminal epithelial lineages in the postnatal mammary gland , 2012, The Journal of pathology.

[18]  R. Nusse,et al.  Developmental stage and time dictate the fate of Wnt/β-catenin-responsive stem cells in the mammary gland. , 2012, Cell stem cell.

[19]  A. Rocha,et al.  Distinct stem cells contribute to mammary gland development and maintenance , 2011, Nature.

[20]  Celeste M. Nelson,et al.  Integrated morphodynamic signalling of the mammary gland , 2011, Nature Reviews Molecular Cell Biology.

[21]  Allon M Klein,et al.  Intestinal Stem Cell Replacement Follows a Pattern of Neutral Drift , 2010, Science.

[22]  L. Rohrschneider,et al.  s-SHIP promoter expression marks activated stem cells in developing mouse mammary tissue. , 2010, Genes & development.

[23]  R. Nusse,et al.  Wnt proteins are self-renewal factors for mammary stem cells and promote their long-term expansion in culture. , 2010, Cell stem cell.

[24]  W. Huber,et al.  which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. MAnorm: a robust model for quantitative comparison of ChIP-Seq data sets , 2011 .

[25]  Nisha M. Badders,et al.  The Wnt Receptor, Lrp5, Is Expressed by Mouse Mammary Stem Cells and Is Required to Maintain the Basal Lineage , 2009, PloS one.

[26]  Richard Durbin,et al.  Sequence analysis Fast and accurate short read alignment with Burrows – Wheeler transform , 2009 .

[27]  Z. Werb,et al.  Patterning Mechanisms of Branched Organs , 2008, Science.

[28]  Ophir D. Klein,et al.  The branching programme of mouse lung development , 2008, Nature.

[29]  Z. Werb,et al.  Candidate regulators of mammary branching morphogenesis identified by genome‐wide transcript analysis , 2006, Developmental dynamics : an official publication of the American Association of Anatomists.

[30]  Daniel A Fletcher,et al.  Tissue Geometry Determines Sites of Mammary Branching Morphogenesis in Organotypic Cultures , 2006, Science.

[31]  Z. Werb,et al.  Hormonal and local control of mammary branching morphogenesis. , 2006, Differentiation; research in biological diversity.

[32]  Haiyan I. Li,et al.  Purification and unique properties of mammary epithelial stem cells , 2006, Nature.

[33]  François Vaillant,et al.  Generation of a functional mammary gland from a single stem cell , 2006, Nature.

[34]  C. Daniel,et al.  Glycosaminoglycans in the basal lamina and extracellular matrix of serially aged mouse mammary ducts , 1984, Mechanisms of Ageing and Development.

[35]  J. Williams,et al.  Mammary ductal elongation: differentiation of myoepithelium and basal lamina during branching morphogenesis. , 1983, Developmental biology.