Cell-intrinsic reprogramming capability: gain or loss of pluripotency in germ cells

[1]  A. Strasser,et al.  The primordial follicle reserve is not renewed after chemical or γ-irradiation mediated depletion. , 2012, Reproduction.

[2]  J. Tilly,et al.  Oocyte formation by mitotically-active germ cells purified from ovaries of reproductive age women , 2012, Nature Medicine.

[3]  M. Surani,et al.  Membrane-Bound Steel Factor Maintains a High Local Concentration for Mouse Primordial Germ Cell Motility, and Defines the Region of Their Migration , 2011, PloS one.

[4]  Z. Izsvák,et al.  Sleeping Beauty transposon mutagenesis in rat spermatogonial stem cells , 2011, Nature Protocols.

[5]  M. Araúzo-Bravo,et al.  Autologous Pluripotent Stem Cells Generated from Adult Mouse Testicular Biopsy , 2011, Stem Cell Reviews and Reports.

[6]  M. Griswold,et al.  DMRT1 prevents female reprogramming in the postnatal mammalian testis , 2011, Nature.

[7]  M. Ikawa,et al.  Homologous Recombination in Rat Germline Stem Cells1 , 2011, Biology of reproduction.

[8]  Wenhai Xie,et al.  Improved efficiency of female germline stem cell purification using fragilis-based magnetic bead sorting. , 2011, Stem cells and development.

[9]  M. Kahn,et al.  Wnt/β-catenin Signaling in Embryonic Stem Cell Self-renewal and Somatic Cell Reprogramming , 2011, Stem Cell Reviews and Reports.

[10]  R. Brinster,et al.  Glial cell line‐derived neurotrophic factor and endothelial cells promote self‐renewal of rabbit germ cells with spermatogonial stem cell properties , 2011, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.

[11]  D. Page,et al.  Licensing of gametogenesis, dependent on RNA binding protein DAZL, as a gateway to sexual differentiation of fetal germ cells , 2011, Proceedings of the National Academy of Sciences.

[12]  Z. Izsvák,et al.  Sleeping Beauty transposon mutagenesis of the rat genome in spermatogonial stem cells. , 2011, Methods.

[13]  Lei Wang,et al.  Production of transgenic mice by random recombination of targeted genes in female germline stem cells. , 2011, Journal of molecular cell biology.

[14]  W. Engel,et al.  Global and gene-specific histone modification profiles of mouse multipotent adult germline stem cells. , 2011, Molecular human reproduction.

[15]  T. Suda,et al.  A Germ Cell-specific Gene, Prmt5, Works in Somatic Cell Reprogramming , 2011, The Journal of Biological Chemistry.

[16]  L. Opitz,et al.  Pluripotent embryonic stem cells and multipotent adult germline stem cells reveal similar transcriptomes including pluripotency-related genes. , 2010, Molecular human reproduction.

[17]  A. Pantazi,et al.  Embryonic stem cell-related miRNAs are involved in differentiation of pluripotent cells originating from the germ line. , 2010, Molecular human reproduction.

[18]  P. Arnaud Genomic imprinting in germ cells: imprints are under control. , 2010, Reproduction.

[19]  A. Sinclair,et al.  Male fetal germ cell differentiation involves complex repression of the regulatory network controlling pluripotency , 2010, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.

[20]  Jennifer Nichols,et al.  Embryonic germ cells from mice and rats exhibit properties consistent with a generic pluripotent ground state , 2010, Development.

[21]  L. Penning,et al.  PTEN and TRP53 independently suppress Nanog expression in spermatogonial stem cells. , 2010, Stem cells and development.

[22]  M. Araúzo-Bravo,et al.  Human adult germline stem cells in question , 2010, Nature.

[23]  J. Bowles,et al.  Sex determination in mammalian germ cells: extrinsic versus intrinsic factors. , 2010, Reproduction.

[24]  E. J. Lee,et al.  Embryonic stem cell-like cells established by culture of adult ovarian cells in mice. , 2010, Fertility and sterility.

[25]  Kazutoshi Takahashi Direct reprogramming 101 , 2010, Development, growth & differentiation.

[26]  M. Gupta,et al.  Glial cell line-derived neurotrophic factor alters the growth characteristics and genomic imprinting of mouse multipotent adult germline stem cells. , 2010, Experimental cell research.

[27]  K. Howerton,et al.  Differentiation potential of germ line stem cells derived from the postnatal mouse ovary. , 2010, Differentiation; research in biological diversity.

[28]  Y. Saga,et al.  Functional reconstruction of NANOS3 expression in the germ cell lineage by a novel transgenic reporter reveals distinct subcellular localizations of NANOS3. , 2010, Reproduction.

[29]  Matthew S. Cook,et al.  The DM domain protein DMRT1 is a dose-sensitive regulator of fetal germ cell proliferation and pluripotency , 2009, Proceedings of the National Academy of Sciences.

[30]  T. Tada,et al.  Conditional knockdown of Nanog induces apoptotic cell death in mouse migrating primordial germ cells , 2009, Development.

[31]  J. Tilly,et al.  Aged mouse ovaries possess rare premeiotic germ cells that can generate oocytes following transplantation into a young host environment , 2009, Aging.

[32]  Theo M de Reijke,et al.  Propagation of human spermatogonial stem cells in vitro. , 2009, JAMA.

[33]  H. Dihazi,et al.  Multipotent adult germline stem cells and embryonic stem cells: comparative proteomic approach. , 2009, Journal of proteome research.

[34]  J. Utikal,et al.  Immortalization eliminates a roadblock during cellular reprogramming into iPS cells , 2009, Nature.

[35]  Manuel Serrano,et al.  A p53-mediated DNA damage response limits reprogramming to ensure iPS cell genomic integrity , 2009, Nature.

[36]  T. Ichisaka,et al.  Suppression of induced pluripotent stem cell generation by the p53–p21 pathway , 2009, Nature.

[37]  Y. Matsui,et al.  Primordial germ cells contain subpopulations that have greater ability to develop into pluripotential stem cells , 2009, Development, growth & differentiation.

[38]  Y. Matsui,et al.  Heterogeneity of mouse primordial germ cells reflecting the distinct status of their differentiation, proliferation and apoptosis can be classified by the expression of cell surface proteins integrin α6 and c‐Kit , 2009, Development, growth & differentiation.

[39]  G. Daley,et al.  A role for Lin28 in primordial germ cell development and germ cell malignancy , 2009, Nature.

[40]  M. Oshimura,et al.  Genetic reconstruction of mouse spermatogonial stem cell self-renewal in vitro by Ras-cyclin D2 activation. , 2009, Cell stem cell.

[41]  H. Schöler,et al.  Induction of pluripotency in adult unipotent germline stem cells. , 2009, Cell stem cell.

[42]  Hitoshi Niwa,et al.  A parallel circuit of LIF signalling pathways maintains pluripotency of mouse ES cells , 2009, Nature.

[43]  K. Hochedlinger,et al.  gPS navigates germ cells to pluripotency. , 2009, Cell stem cell.

[44]  Tsai-Jung Wu,et al.  Pluripotency of mouse spermatogonial stem cells maintained by IGF‐1‐dependent pathway , 2009, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.

[45]  S. Toyokuni,et al.  Abnormal DNA Methyltransferase Expression in Mouse Germline Stem Cells Results in Spermatogenic Defects1 , 2009, Biology of reproduction.

[46]  Xinbin Chen,et al.  PRMT5 is required for cell-cycle progression and p53 tumor suppressor function , 2009, Nucleic acids research.

[47]  T. Haaf,et al.  Comparative methylation profiles and telomerase biology of mouse multipotent adult germline stem cells and embryonic stem cells. , 2009, Molecular human reproduction.

[48]  K. Zou,et al.  Production of offspring from a germline stem cell line derived from neonatal ovaries , 2009, Nature Cell Biology.

[49]  H. Ohta,et al.  A Signaling Principle for the Specification of the Germ Cell Lineage in Mice , 2009, Cell.

[50]  Ying Gu,et al.  Steel factor controls primordial germ cell survival and motility from the time of their specification in the allantois, and provides a continuous niche throughout their migration , 2009, Development.

[51]  Matthew S. Cook,et al.  BAX-mediated cell death affects early germ cell loss and incidence of testicular teratomas in Dnd1(Ter/Ter) mice. , 2009, Developmental biology.

[52]  Jiji Jiang,et al.  Pluripotent stem cells derived from adult human testes. , 2009, Stem cells and development.

[53]  M. Kanatsu-Shinohara,et al.  Heritable Imprinting Defect Caused by Epigenetic Abnormalities in Mouse Spermatogonial Stem Cells1 , 2009, Biology of reproduction.

[54]  S. Novaković,et al.  Parthenogenetic embryo-like structures in the human ovarian surface epithelium cell culture in postmenopausal women with no naturally present follicles and oocytes. , 2009, Stem cells and development.

[55]  R. Reijo-Pera,et al.  Isolation and Characterization of Pluripotent Human Spermatogonial Stem Cell-Derived Cells , 2009, Stem cells.

[56]  M. Jansson,et al.  Arginine methylation regulates the p53 response , 2008, Nature Cell Biology.

[57]  Xiaolei Yin,et al.  Two supporting factors greatly improve the efficiency of human iPSC generation. , 2008, Cell stem cell.

[58]  F. Tang,et al.  Reprogramming Primordial Germ Cells into Pluripotent Stem Cells , 2008, PloS one.

[59]  V. Papaioannou,et al.  The oocyte population is not renewed in transplanted or irradiated adult ovaries. , 2008, Human reproduction.

[60]  S. Rafii,et al.  CD34+ Testicular Stromal Cells Support Long‐Term Expansion of Embryonic and Adult Stem and Progenitor Cells , 2008, Stem cells.

[61]  Mitinori Saitou,et al.  A comprehensive, non-invasive visualization of primordial germ cell development in mice by the Prdm1-mVenus and Dppa3-ECFP double transgenic reporter. , 2008, Reproduction.

[62]  P. Rožman,et al.  Putative stem cells with an embryonic character isolated from the ovarian surface epithelium of women with no naturally present follicles and oocytes. , 2008, Differentiation; research in biological diversity.

[63]  G. Hasenfuss,et al.  Multipotent adult germline stem cells and embryonic stem cells have similar microRNA profiles. , 2008, Molecular human reproduction.

[64]  S. Kanaya,et al.  Differences and similarities in the developmental status of embryo‐derived stem cells and primordial germ cells revealed by global expression profiling , 2008, Genes to cells : devoted to molecular & cellular mechanisms.

[65]  K. Kurimoto,et al.  Critical function of Prdm14 for the establishment of the germ cell lineage in mice , 2008, Nature Genetics.

[66]  D. D. de Rooij,et al.  Deriving multipotent stem cells from mouse spermatogonial stem cells: a new tool for developmental and clinical research , 2008, Development.

[67]  K. Kurimoto,et al.  Complex genome-wide transcription dynamics orchestrated by Blimp1 for the specification of the germ cell lineage in mice. , 2008, Genes & development.

[68]  K. Howerton,et al.  Generation of multipotent cell lines from a distinct population of male germ line stem cells. , 2008, Reproduction.

[69]  Cassandra R. Farthing,et al.  Global Mapping of DNA Methylation in Mouse Promoters Reveals Epigenetic Reprogramming of Pluripotency Genes , 2008, PLoS genetics.

[70]  Y. Matsui,et al.  Requirement of Oct3/4 function for germ cell specification. , 2008, Developmental biology.

[71]  M. Ikawa,et al.  Pluripotency of a Single Spermatogonial Stem Cell in Mice1 , 2008, Biology of reproduction.

[72]  K. Hochedlinger,et al.  Defining molecular cornerstones during fibroblast to iPS cell reprogramming in mouse. , 2008, Cell stem cell.

[73]  Tohru Kimura,et al.  AKT signaling promotes derivation of embryonic germ cells from primordial germ cells , 2008, Development.

[74]  Reuven Agami,et al.  RNA-Binding Protein Dnd1 Inhibits MicroRNA Access to Target mRNA , 2007, Cell.

[75]  Shulan Tian,et al.  Induced Pluripotent Stem Cell Lines Derived from Human Somatic Cells , 2007, Science.

[76]  Wenbing Zhu,et al.  Stem cell factor affects fate determination of human gonocytes in vitro. , 2007, Reproduction.

[77]  T. Ichisaka,et al.  Induction of Pluripotent Stem Cells from Adult Human Fibroblasts by Defined Factors , 2007, Cell.

[78]  J. Dadoune Generation of functional multipotent adult stem cells from GPR125 + germline progenitors. , 2007 .

[79]  Zuping He,et al.  Gfra1 Silencing in Mouse Spermatogonial Stem Cells Results in Their Differentiation Via the Inactivation of RET Tyrosine Kinase1 , 2007, Biology of reproduction.

[80]  D. Barlow,et al.  Embryonic germ cell lines and their derivation from mouse primordial germ cells. , 2007, Ciba Foundation symposium.

[81]  S. Rafii,et al.  Generation of functional multipotent adult stem cells from GPR125+ germline progenitors. , 2007, Nature.

[82]  Yan Peng,et al.  Leukemia Inhibitory Factor-Expressing Human Embryonic Lung Fibroblasts as Feeder Cells for Human Embryonic Germ Cells , 2007, Cells Tissues Organs.

[83]  Ho-Joon Lee,et al.  Bone marrow transplantation generates immature oocytes and rescues long-term fertility in a preclinical mouse model of chemotherapy-induced premature ovarian failure. , 2007, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[84]  M. Kanatsu-Shinohara,et al.  Isolation, characterization, and in vitro and in vivo differentiation of putative thecal stem cells , 2007, Proceedings of the National Academy of Sciences.

[85]  Y. Matsui,et al.  Cellular dynamics associated with the genome-wide epigenetic reprogramming in migrating primordial germ cells in mice , 2007, Development.

[86]  A. Sharov,et al.  Global gene expression profiling reveals similarities and differences among mouse pluripotent stem cells of different origins and strains. , 2007, Developmental biology.

[87]  K. Abe,et al.  X Chromosome Reactivation Initiates in Nascent Primordial Germ Cells in Mice , 2007, PLoS genetics.

[88]  S. Toyokuni,et al.  Akt mediates self-renewal division of mouse spermatogonial stem cells , 2007, Development.

[89]  S. Toyokuni,et al.  Adenovirus-mediated gene delivery into mouse spermatogonial stem cells , 2007, Proceedings of the National Academy of Sciences.

[90]  M. Oshimura,et al.  A comparison study in the proteomic signatures of multipotent germline stem cells, embryonic stem cells, and germline stem cells. , 2007, Biochemical and biophysical research communications.

[91]  M. Taketo,et al.  The stabilization of β-catenin leads to impaired primordial germ cell development via aberrant cell cycle progression , 2006 .

[92]  K. Kurimoto,et al.  Gene Expression Dynamics During Germline Specification in Mice Identified by Quantitative Single-Cell Gene Expression Profiling1 , 2006, Biology of reproduction.

[93]  S. Yamanaka,et al.  Induction of Pluripotent Stem Cells from Mouse Embryonic and Adult Fibroblast Cultures by Defined Factors , 2006, Cell.

[94]  T. Hara,et al.  Capillary morphogenesis gene (CMG)‐1 is among the genes differentially expressed in mouse male germ line stem cells and embryonic stem cells , 2006, Molecular reproduction and development.

[95]  T. Ichisaka,et al.  Transcriptional repression and DNA hypermethylation of a small set of ES cell marker genes in male germline stem cells , 2006, BMC Developmental Biology.

[96]  M. Myers,et al.  Quantification of healthy follicles in the neonatal and adult mouse ovary: evidence for maintenance of primordial follicle supply. , 2006, Reproduction.

[97]  K. Eggan,et al.  Ovulated oocytes in adult mice derive from non-circulating germ cells , 2006, Nature.

[98]  M. Kanatsu-Shinohara,et al.  The germ of pluripotency , 2006, Nature Biotechnology.

[99]  M. Surani,et al.  The Role of Exogenous Fibroblast Growth Factor‐2 on the Reprogramming of Primordial Germ Cells into Pluripotent Stem Cells , 2006, Stem cells.

[100]  M. Oshimura,et al.  Production of knockout mice by random or targeted mutagenesis in spermatogonial stem cells. , 2006, Proceedings of the National Academy of Sciences of the United States of America.

[101]  M. Azim Surani,et al.  Blimp1 associates with Prmt5 and directs histone arginine methylation in mouse germ cells , 2006, Nature Cell Biology.

[102]  J. Rossant,et al.  Retinoid Signaling Determines Germ Cell Fate in Mice , 2006, Science.

[103]  Stefan Wagner,et al.  Pluripotency of spermatogonial stem cells from adult mouse testis , 2006, Nature.

[104]  H. Hiura,et al.  Oocyte growth‐dependent progression of maternal imprinting in mice , 2006, Genes to cells : devoted to molecular & cellular mechanisms.

[105]  Dong Ryul Lee,et al.  Isolation of male germ stem cell-like cells from testicular tissue of non-obstructive azoospermic patients and differentiation into haploid male germ cells in vitro. , 2006, Human reproduction.

[106]  David I. Wilson,et al.  Evaluating Human Embryonic Germ Cells: Concord and Conflict as Pluripotent Stem Cells , 2006, Stem cells.

[107]  D. Page,et al.  Dazl deficiency leads to embryonic arrest of germ cell development in XY C57BL/6 mice. , 2005, Developmental biology.

[108]  R. Hammer,et al.  Self renewal, expansion, and transfection of rat spermatogonial stem cells in culture. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[109]  S. Yamanaka,et al.  Role of the phosphoinositide 3-kinase pathway in mouse embryonic stem (ES) cells. , 2005, Biochemical Society transactions.

[110]  R. Brinster,et al.  Conservation of spermatogonial stem cell self-renewal signaling between mouse and rat. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[111]  M. Oshimura,et al.  Genetic and epigenetic properties of mouse male germline stem cells during long-term culture , 2005, Development.

[112]  Ho-Joon Lee,et al.  Oocyte Generation in Adult Mammalian Ovaries by Putative Germ Cells in Bone Marrow and Peripheral Blood , 2005, Cell.

[113]  M. Azim Surani,et al.  Blimp1 is a critical determinant of the germ cell lineage in mice , 2005, Nature.

[114]  J. Nadeau,et al.  The Ter mutation in the dead end gene causes germ cell loss and testicular germ cell tumours , 2005, Nature.

[115]  Y. Matsui,et al.  Extensive and orderly reprogramming of genome-wide chromatin modifications associated with specification and early development of germ cells in mice. , 2005, Developmental biology.

[116]  Ettore Appella,et al.  p53 induces differentiation of mouse embryonic stem cells by suppressing Nanog expression , 2005, Nature Cell Biology.

[117]  M. Oshimura,et al.  Generation of Pluripotent Stem Cells from Neonatal Mouse Testis , 2004, Cell.

[118]  Shoji Tajima,et al.  Co-expression of de novo DNA methyltransferases Dnmt3a2 and Dnmt3L in gonocytes of mouse embryos. , 2004, Gene expression patterns : GEP.

[119]  D. Lees-Murdock,et al.  Timing of establishment of paternal methylation imprints in the mouse. , 2004, Genomics.

[120]  R. Brinster,et al.  Growth factors essential for self-renewal and expansion of mouse spermatogonial stem cells. , 2004, Proceedings of the National Academy of Sciences of the United States of America.

[121]  H. Schöler,et al.  Oct4 is required for primordial germ cell survival , 2004, EMBO reports.

[122]  T. Suda,et al.  Derivation and morphological characterization of mouse spermatogonial stem cell lines. , 2004, Archives of histology and cytology.

[123]  J. Xiong,et al.  Human embryonic germ cells isolation from early stages of post-implantation embryos , 2004, Cell and Tissue Research.

[124]  J. Tilly,et al.  Germline stem cells and follicular renewal in the postnatal mammalian ovary , 2004, Nature.

[125]  B. Hemmings,et al.  Advances in protein kinase B signalling: AKTion on multiple fronts. , 2004, Trends in biochemical sciences.

[126]  M. Bartolomei,et al.  Gene-specific timing and epigenetic memory in oocyte imprinting. , 2004, Human molecular genetics.

[127]  M. De Felici,et al.  Akt/PTEN signaling mediates estrogen-dependent proliferation of primordial germ cells in vitro. , 2003, Molecular endocrinology.

[128]  R. Lehmann,et al.  The chemokine SDF1/CXCL12 and its receptor CXCR4 regulate mouse germ cell migration and survival , 2003, Development.

[129]  David I. Wilson,et al.  Derivation of Human Embryonic Germ Cells: An Alternative Source of Pluripotent Stem Cells , 2003, Stem cells.

[130]  K. Abe,et al.  Conserved Role of nanos Proteins in Germ Cell Development , 2003, Science.

[131]  S. Toyokuni,et al.  Long-Term Proliferation in Culture and Germline Transmission of Mouse Male Germline Stem Cells1 , 2003, Biology of reproduction.

[132]  S. Yamanaka,et al.  Role of ERas in promoting tumour-like properties in mouse embryonic stem cells , 2003, Nature.

[133]  T. Mak,et al.  Conditional loss of PTEN leads to testicular teratoma and enhances embryonic germ cell production , 2003, Development.

[134]  Y. Matsui,et al.  Impaired colonization of the gonads by primordial germ cells in mice lacking a chemokine, stromal cell-derived factor-1 (SDF-1) , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[135]  J. Nadeau,et al.  Genetic control of susceptibility to spontaneous testicular germ cell tumors in mice , 2003, APMIS : acta pathologica, microbiologica, et immunologica Scandinavica.

[136]  H. Sariola,et al.  GDNF‐induced seminomatous tumours in mouse – an experimental model for human seminomas? , 2003, APMIS : acta pathologica, microbiologica, et immunologica Scandinavica.

[137]  M. Surani,et al.  A molecular programme for the specification of germ cell fate in mice , 2002, Nature.

[138]  N. Ogonuki,et al.  Erasing genomic imprinting memory in mouse clone embryos produced from day 11.5 primordial germ cells. , 2002, Development.

[139]  E. Xu,et al.  A gene family required for human germ cell development evolved from an ancient meiotic gene conserved in metazoans , 2001, Proceedings of the National Academy of Sciences of the United States of America.

[140]  M. Saarma,et al.  Promotion of seminomatous tumors by targeted overexpression of glial cell line-derived neurotrophic factor in mouse testis. , 2001, Cancer research.

[141]  J. Nadeau,et al.  129/Sv mice—a model system for studying germ cell biology and testicular cancer , 2001, Mammalian Genome.

[142]  C. S. Raymond,et al.  Dmrt1, a gene related to worm and fly sexual regulators, is required for mammalian testis differentiation. , 2000, Genes & development.

[143]  Y. Matsui,et al.  Expression and intracellular localization of mouse Vasa-homologue protein during germ cell development , 2000, Mechanisms of Development.

[144]  M. Saarma,et al.  Regulation of cell fate decision of undifferentiated spermatogonia by GDNF. , 2000, Science.

[145]  L. Cantley,et al.  New insights into tumor suppression: PTEN suppresses tumor formation by restraining the phosphoinositide 3-kinase/AKT pathway. , 1999, Proceedings of the National Academy of Sciences of the United States of America.

[146]  J. Axelman,et al.  Derivation of pluripotent stem cells from cultured human primordial germ cells. , 1998, Proceedings of the National Academy of Sciences of the United States of America.

[147]  J. Thomson,et al.  Embryonic stem cell lines derived from human blastocysts. , 1998, Science.

[148]  T. Mak,et al.  High cancer susceptibility and embryonic lethality associated with mutation of the PTEN tumor suppressor gene in mice , 1998, Current Biology.

[149]  M. Surani,et al.  Epigenotype switching of imprintable loci in embryonic germ cells , 1998, Development Genes and Evolution.

[150]  M. Surani,et al.  Embryonic germ cells induce epigenetic reprogramming of somatic nucleus in hybrid cells , 1997, The EMBO journal.

[151]  N. Nakatsuji,et al.  Functional requirement of gp130-mediated signaling for growth and survival of mouse primordial germ cells in vitro and derivation of embryonic germ (EG) cells. , 1996, Development.

[152]  D. Barlow,et al.  Mouse embryonic germ (EG) cell lines: transmission through the germline and differences in the methylation imprint of insulin-like growth factor 2 receptor (Igf2r) gene compared with embryonic stem (ES) cell lines. , 1994, Development.

[153]  C. Stewart,et al.  Stem cells from primordial germ cells can reenter the germ line. , 1994, Developmental biology.

[154]  P. Donovan,et al.  Long-term proliferation of mouse primordial germ cells in culture , 1992, Nature.

[155]  B. Hogan,et al.  Derivation of pluripotential embryonic stem cells from murine primordial germ cells in culture , 1992, Cell.

[156]  S. Nishikawa,et al.  Effect of Steel factor and leukaemia inhibitory factor on murine primordial germ cells in culture , 1991, Nature.

[157]  M. De Felici,et al.  Leukemia inhibitory factor sustains the survival of mouse primordial germ cells cultured on TM4 feeder layers. , 1991, Developmental biology.

[158]  M. Noguchi,et al.  A recessive mutation (ter) causing germ cell deficiency and a high incidence of congenital testicular teratomas in 129/Sv-ter mice. , 1985, Journal of the National Cancer Institute.

[159]  L. C. Stevens Origin of testicular teratomas from primordial germ cells in mice. , 1967, Journal of the National Cancer Institute.

[160]  K. Hummel,et al.  A description of spontaneous congenital testicular teratomas in strain 129 mice. , 1957, Journal of the National Cancer Institute.

[161]  L. C. Stevens,et al.  Spontaneous Testicular Teratomas in an Inbred Strain of Mice. , 1954, Proceedings of the National Academy of Sciences of the United States of America.

[162]  M. Araúzo-Bravo,et al.  Identification of genes specific to mouse primordial germ cells through dynamic global gene expression. , 2011, Human molecular genetics.

[163]  T. D. de Reijke,et al.  Embryonic stem cell-like cells derived from adult human testis. , 2010, Human reproduction.

[164]  J. Tilly,et al.  The Current Status of Evidence for and Against Postnatal Oogenesis in Mammals: A Case of Ovarian Optimism Versus Pessimism?1 , 2009, Biology of reproduction.

[165]  M. Bonin,et al.  Generation of pluripotent stem cells from adult human testis , 2009, Nature.

[166]  N. Nakatsuji,et al.  Long-Term Culture of Male Germline Stem Cells From Hamster Testes , 2008 .

[167]  M. Taketo,et al.  The stabilization of beta-catenin leads to impaired primordial germ cell development via aberrant cell cycle progression. , 2006, Developmental biology.

[168]  S. Toyokuni,et al.  Genetic Selection of Mouse Male Germline Stem Cells In Vitro: Offspring from Single Stem Cells1 , 2005, Biology of reproduction.

[169]  C. Wylie Primordial germ cells , 1980, Nature.

[170]  L. C. Stevens A new inbred subline of mice (129-terSv) with a high incidence of spontaneous congenital testicular teratomas. , 1973, Journal of the National Cancer Institute.