Clonal analysis via barcoding reveals diverse growth and differentiation of transplanted mouse and human mammary stem cells.
暂无分享,去创建一个
M. Hirst | Yongjun Zhao | Thomas Zeng | S. Aparicio | Kane Tse | M. Moksa | C. Eaves | A. Carles | A. Cheung | P. Pandoh | R. Humphries | Samuel Aparicio | P. Eirew | T. Osako | Long V. Nguyen | N. Kannan | M. Makarem | M. Kardel | William Kennedy | Nagarajan Kannan | Alice M. S. Cheung
[1] M. Hirst,et al. Analysis of the clonal growth and differentiation dynamics of primitive barcoded human cord blood cells in NSG mice. , 2013, Blood.
[2] C. Eaves,et al. Developmental Changes in the in Vitro Activated Regenerative Activity of Primitive Mammary Epithelial Cells , 2013, PLoS biology.
[3] Gedge D. Rosson,et al. Molecular profiling of human mammary gland links breast cancer risk to a p27(+) cell population with progenitor characteristics. , 2013, Cell stem cell.
[4] C. Eaves,et al. The Luminal Progenitor Compartment of the Normal Human Mammary Gland Constitutes a Unique Site of Telomere Dysfunction , 2013, Stem cell reports.
[5] T. Schumacher,et al. Diverse and heritable lineage imprinting of early haematopoietic progenitors , 2013, Nature.
[6] C. Caldas,et al. Phenotypic and functional characterisation of the luminal cell hierarchy of the mammary gland , 2012, Breast Cancer Research.
[7] 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.
[8] Joshua F. McMichael,et al. The Origin and Evolution of Mutations in Acute Myeloid Leukemia , 2012, Cell.
[9] Gerald de Haan,et al. Counting stem cells: methodological constraints , 2012, Nature Methods.
[10] A. Van Keymeulen,et al. Tracing epithelial stem cells during development, homeostasis, and repair , 2012, The Journal of cell biology.
[11] F. Markowetz,et al. The genomic and transcriptomic architecture of 2,000 breast tumours reveals novel subgroups , 2012, Nature.
[12] Christof von Kalle,et al. Bioinformatic clonality analysis of next-generation sequencing-derived viral vector integration sites. , 2012, Human gene therapy methods.
[13] Irmtraud M. Meyer,et al. The clonal and mutational evolution spectrum of primary triple-negative breast cancers , 2012, Nature.
[14] B. Groner,et al. c-Kit is required for growth and survival of the cells of origin of Brca1-mutation-associated breast cancer , 2012, Oncogene.
[15] G. Wahl,et al. A mammary stem cell population identified and characterized in late embryogenesis reveals similarities to human breast cancer. , 2012, Cell stem cell.
[16] Elisa Laurenti,et al. Hematopoiesis: a human perspective. , 2012, Cell stem cell.
[17] J. Visvader,et al. Aldehyde Dehydrogenase Activity Is a Biomarker of Primitive Normal Human Mammary Luminal Cells , 2012, Stem cells.
[18] A. Rocha,et al. Distinct stem cells contribute to mammary gland development and maintenance , 2011, Nature.
[19] Irving L. Weissman,et al. Tracking single hematopoietic stem cells in vivo using high-throughput sequencing in conjunction with viral genetic barcoding , 2011, Nature Biotechnology.
[20] C. Eaves,et al. Quantitation of human mammary epithelial stem cells with in vivo regenerative properties using a subrenal capsule xenotransplantation assay , 2010, Nature Protocols.
[21] Richard A. Moore,et al. ARID1A mutations in endometriosis-associated ovarian carcinomas. , 2010, The New England journal of medicine.
[22] C. Clarke,et al. Progesterone induces adult mammary stem cell expansion , 2010, Nature.
[23] A. Gerrits,et al. Cellular barcoding tool for clonal analysis in the hematopoietic system. , 2010, Blood.
[24] M. Smalley. Isolation, culture and analysis of mouse mammary epithelial cells. , 2010, Methods in molecular biology.
[25] S. Fox,et al. Aberrant luminal progenitors as the candidate target population for basal tumor development in BRCA1 mutation carriers , 2009, Nature Medicine.
[26] G. Turashvili,et al. A method for quantifying normal human mammary epithelial stem cells with in vivo regenerative ability , 2008, Nature Medicine.
[27] Ramon Arens,et al. Dissecting T cell lineage relationships by cellular barcoding , 2008, The Journal of experimental medicine.
[28] Marco Marra,et al. Transcriptome analysis of the normal human mammary cell commitment and differentiation process. , 2008, Cell stem cell.
[29] Haiyan I. Li,et al. Purification and unique properties of mammary epithelial stem cells , 2006, Nature.
[30] François Vaillant,et al. Generation of a functional mammary gland from a single stem cell , 2006, Nature.
[31] Winnie Kwok,et al. Genomic instability of human mammary epithelial cells overexpressing a truncated form of EMSY. , 2005, Journal of the National Cancer Institute.
[32] A. Logan,et al. Factors influencing the titer and infectivity of lentiviral vectors. , 2004, Human gene therapy.
[33] R. Nagel,et al. High-level β-globin expression and preferred intragenic integration after lentiviral transduction of human cord blood stem cells , 2004 .
[34] J. Sambrook,et al. Molecular Cloning: A Laboratory Manual , 2001 .
[35] R. Arceci. Intratumor Heterogeneity and Branched Evolution Revealed by Multiregion Sequencing , 2012 .
[36] C. von Kalle,et al. Detection of retroviral integration sites by linear amplification-mediated PCR and tracking of individual integration clones in different samples. , 2009, Methods in molecular biology.
[37] B. Fehse,et al. Retroviral integration site analysis in hematopoietic stem cells. , 2008, Methods in molecular biology.
[38] R. Nagel,et al. High-level beta-globin expression and preferred intragenic integration after lentiviral transduction of human cord blood stem cells. , 2004, The Journal of clinical investigation.