Stem cells find their niche
暂无分享,去创建一个
A. Spradling | T. Kai | D. Drummond-Barbosa | Allan Spradling | Daniela Drummond-Barbosa | Toshie Kai
[1] D. G. Rooij,et al. Spermatogonial stem cells. , 1998, Current opinion in cell biology.
[2] E. Fuchs,et al. Conditional ablation of beta1 integrin in skin. Severe defects in epidermal proliferation, basement membrane formation, and hair follicle invagination. , 2000, The Journal of cell biology.
[3] A. Spradling,et al. Germline stem cell division and egg chamber development in transplanted Drosophila germaria. , 1993, Developmental biology.
[4] Y. Barrandon,et al. Pattern of expression of the transcription factor Krox-20 in mouse hair follicle , 2000, Mechanisms of Development.
[5] P. Gönczy,et al. bag-of-marbles and benign gonial cell neoplasm act in the germline to restrict proliferation during Drosophila spermatogenesis. , 1997, Development.
[6] Haifan Lin,et al. A novel class of evolutionarily conserved genes defined by piwi are essential for stem cell self-renewal. , 1998, Genes & development.
[7] T. Shinohara,et al. β1- and α6-integrin are surface markers on mouse spermatogonial stem cells , 1999 .
[8] M. Saarma,et al. Regulation of cell fate decision of undifferentiated spermatogonia by GDNF. , 2000, Science.
[9] R. Schofield. The relationship between the spleen colony-forming cell and the haemopoietic stem cell. , 1978, Blood cells.
[10] I Fariñas,et al. Development of several organs that require inductive epithelial-mesenchymal interactions is impaired in LEF-1-deficient mice. , 1994, Genes & development.
[11] W. Bodmer,et al. Polyclonal Origin of Colonic Adenomas in an XO/XY Patient with FAP , 1996, Science.
[12] X. Liu,et al. Requirement of Bmp8b for the generation of primordial germ cells in the mouse. , 2000, Molecular endocrinology.
[13] H Cheng,et al. Clonal analysis of mouse intestinal epithelial progenitors. , 1999, Gastroenterology.
[14] David C. Lee,et al. TGFα deficiency results in hair follicle and eye abnormalities in targeted and waved-1 mice , 1993, Cell.
[15] T. Sun,et al. Existence of slow-cycling limbal epithelial basal cells that can be preferentially stimulated to proliferate: Implications on epithelial stem cells , 1989, Cell.
[16] S. Gallinger,et al. APC mutation and the crypt cycle in murine and human intestine. , 1997, The American journal of pathology.
[17] A. Kiger,et al. Somatic support cells restrict germline stem cell self-renewal and promote differentiation , 2000, Nature.
[18] L. Russell,et al. Development of germ cell transplants in mice. , 1998, Biology of reproduction.
[19] J. Rubin,et al. Human KGF is FGF-related with properties of a paracrine effector of epithelial cell growth. , 1989, Science.
[20] A. Spradling,et al. Stem cells and their progeny respond to nutritional changes during Drosophila oogenesis. , 2001, Developmental biology.
[21] F. Laski,et al. Drosophila ovary morphogenesis: analysis of terminal filament formation and identification of a gene required for this process. , 1995, Developmental biology.
[22] G. Martin,et al. FGF5 as a regulator of the hair growth cycle: Evidence from targeted and spontaneous mutations , 1994, Cell.
[23] M. Yokoyama,et al. The mouse homolog of Drosophila Vasa is required for the development of male germ cells. , 2000, Genes & development.
[24] J. Graff,et al. The TGF-β signaling pathway is essential for Drosophila oogenesis , 1996 .
[25] T. Schedl,et al. Germ-line tumor formation caused by activation of glp-1, a Caenorhabditis elegans member of the Notch family of receptors. , 1997, Development.
[26] R. Burgeson,et al. Wnt signaling maintains the hair-inducing activity of the dermal papilla. , 2000, Genes & development.
[27] A. Spradling,et al. Morphogenesis of the Drosophila fusome and its implications for oocyte specification. , 1998, Development.
[28] D. Kalderon,et al. Hedgehog acts as a somatic stem cell factor in the Drosophila ovary , 2001, Nature.
[29] G. Zhao,et al. Transforming Growth Factor β Signal Transducer Smad2 Is Expressed in Mouse Meiotic Germ Cells, Sertoli Cells, and Leydig Cells During Spermatogenesis , 1999 .
[30] R. Tarone,et al. Frequent clones of p53-mutated keratinocytes in normal human skin. , 1996, Proceedings of the National Academy of Sciences of the United States of America.
[31] A. Spradling,et al. Identification and behavior of epithelial stem cells in the Drosophila ovary. , 1995, Development.
[32] J. Kimble,et al. Genetic regulation of entry into meiosis in Caenorhabditis elegans. , 1998, Development.
[33] J. Gordon,et al. Genetic mosaic analysis based on Cre recombinase and navigated laser capture microdissection. , 2000, Proceedings of the National Academy of Sciences of the United States of America.
[34] E. Fuchs,et al. Hyperproliferation and Defects in Epithelial Polarity upon Conditional Ablation of α-Catenin in Skin , 2001, Cell.
[35] A. Spradling,et al. A niche maintaining germ line stem cells in the Drosophila ovary. , 2000, Science.
[36] E. Fuchs,et al. Multiple roles for activated LEF/TCF transcription complexes during hair follicle development and differentiation. , 1999, Development.
[37] G. Jürgens,et al. Role of the ZWILLE gene in the regulation of central shoot meristem cell fate during Arabidopsis embryogenesis , 1998, The EMBO journal.
[38] E. Wagner,et al. Strain-dependent epithelial defects in mice lacking the EGF receptor. , 1995, Science.
[39] T. Brenner,et al. Somatic control over the germline stem cell lineage during Drosophila spermatogenesis , 2000, Nature.
[40] Hans Clevers,et al. Depletion of epithelial stem-cell compartments in the small intestine of mice lacking Tcf-4 , 1998, Nature Genetics.
[41] Haifan Lin,et al. piwi encodes a nucleoplasmic factor whose activity modulates the number and division rate of germline stem cells. , 2000, Development.
[42] P. Gönczy,et al. The germ line regulates somatic cyst cell proliferation and fate during Drosophila spermatogenesis. , 1996, Development.
[43] P. Ingham,et al. The role of segment polarity genes during early oogenesis in Drosophila. , 1996, Development.
[44] R. Timpl,et al. Skin and hair follicle integrity is crucially dependent on β1 integrin expression on keratinocytes , 2000, The EMBO journal.
[45] N. Wright. Epithelial stem cell repertoire in the gut: clues to the origin of cell lineages, proliferative units and cancer , 2000, International journal of experimental pathology.
[46] J. Gordon,et al. Examining the Role of Paneth Cells in the Small Intestine by Lineage Ablation in Transgenic Mice* , 1997, The Journal of Biological Chemistry.
[47] D. Mckearin,et al. The Drosophila cystoblast differentiation factor, benign gonial cell neoplasm, is related to DExH-box proteins and interacts genetically with bag-of-marbles. , 2000, Genetics.
[48] W. Birchmeier,et al. β-Catenin Controls Hair Follicle Morphogenesis and Stem Cell Differentiation in the Skin , 2001, Cell.
[49] B. Hogan,et al. Inhibition of Bmp signaling affects growth and differentiation in the anagen hair follicle , 2000, The EMBO journal.
[50] J Kimble,et al. lag-2 may encode a signaling ligand for the GLP-1 and LIN-12 receptors of C. elegans. , 1994, Development.
[51] R Paus,et al. Controls of hair follicle cycling. , 2001, Physiological reviews.
[52] E. Fuchs,et al. De Novo Hair Follicle Morphogenesis and Hair Tumors in Mice Expressing a Truncated β-Catenin in Skin , 1998, Cell.
[53] D. Marshak,et al. Stem Cell Biology , 2001 .
[54] A. Ullrich,et al. Expression of a dominant negative mutant of epidermal growth factor receptor in the epidermis of transgenic mice elicits striking alterations in hair follicle development and skin structure. , 1995, The EMBO journal.
[55] A. Spradling,et al. A novel group of pumilio mutations affects the asymmetric division of germline stem cells in the Drosophila ovary. , 1997, Development.
[56] Gina A. Taylor,et al. Involvement of Follicular Stem Cells in Forming Not Only the Follicle but Also the Epidermis , 2000, Cell.
[57] R. Brinster,et al. Computer assisted image analysis to assess colonization of recipient seminiferous tubules by spermatogonial stem cells from transgenic donor mice , 1999, Molecular reproduction and development.
[58] T. Shinohara,et al. b 1 - and a 6 -integrin are surface markers on mouse spermatogonial stem cells , 1999 .
[59] R. Hardy,et al. The germinal proliferation center in the testis of Drosophila melanogaster. , 1979, Journal of ultrastructure research.
[60] W Gaffield,et al. Essential role for Sonic hedgehog during hair follicle morphogenesis. , 1999, Developmental biology.
[61] N. Mahmud,et al. Human CD34(+) stem cells express the hiwi gene, a human homologue of the Drosophila gene piwi. , 2001, Blood.
[62] J. Graff,et al. The TGF-beta signaling pathway is essential for Drosophila oogenesis. , 1996, Development.
[63] K. Kaestner,et al. The mesenchymal winged helix transcription factor Fkh6 is required for the control of gastrointestinal proliferation and differentiation. , 1997, Genes & development.
[64] M. Meistrich,et al. Probability of self‐renewing divisions of spermatogonial stem cells in colonies, formed after fission neutron irradiation , 1990, Cell and tissue kinetics.
[65] D. Kalderon,et al. Regulation of cell proliferation and patterning in Drosophila oogenesis by Hedgehog signaling. , 2000, Development.
[66] Yann Barrandon,et al. Location of stem cells of human hair follicles by clonal analysis , 1994, Cell.
[67] P. Ingham,et al. hedgehog is required for the proliferation and specification of ovarian somatic cells prior to egg chamber formation in Drosophila. , 1996, Development.
[68] R. Lehmann,et al. Nanos and Pumilio have critical roles in the development and function of Drosophila germline stem cells. , 1998, Development.
[69] Elaine Fuchs,et al. A common human skin tumour is caused by activating mutations in β-catenin , 1999, Nature Genetics.
[70] T. Shinohara,et al. Remodeling of the postnatal mouse testis is accompanied by dramatic changes in stem cell number and niche accessibility , 2001, Proceedings of the National Academy of Sciences of the United States of America.
[71] J. Kimble,et al. glp-1 Is required in the germ line for regulation of the decision between mitosis and meiosis in C. elegans , 1987, Cell.
[72] M. Nagano,et al. Pattern and kinetics of mouse donor spermatogonial stem cell colonization in recipient testes. , 1999, Biology of reproduction.
[73] W. Deng,et al. Spectrosomes and fusomes anchor mitotic spindles during asymmetric germ cell divisions and facilitate the formation of a polarized microtubule array for oocyte specification in Drosophila. , 1997, Developmental biology.
[74] Haifan Lin,et al. Yb modulates the divisions of both germline and somatic stem cells through piwi- and hh-mediated mechanisms in the Drosophila ovary. , 2001, Molecular cell.
[75] Yann Barrandon,et al. Morphogenesis and Renewal of Hair Follicles from Adult Multipotent Stem Cells , 2001, Cell.
[76] M. Tsai,et al. Targeted ablation of secretin-producing cells in transgenic mice reveals a common differentiation pathway with multiple enteroendocrine cell lineages in the small intestine. , 1999, Development.
[77] Ting Xie,et al. decapentaplegic Is Essential for the Maintenance and Division of Germline Stem Cells in the Drosophila Ovary , 1998, Cell.
[78] T. Sun,et al. Heterogeneity in epidermal basal keratinocytes: morphological and functional correlations. , 1982, Science.
[79] R. Brinster,et al. Spermatogenesis following male germ-cell transplantation. , 1994, Proceedings of the National Academy of Sciences of the United States of America.
[80] Vladimir E. Sokolov,et al. Towards defining the pathogenesis of the hairless phenotype. , 1998, The Journal of investigative dermatology.
[81] H. Ohta,et al. Regulation of proliferation and differentiation in spermatogonial stem cells: the role of c-kit and its ligand SCF. , 2000, Development.
[82] M. H. Hardy,et al. The secret life of the hair follicle. , 1992, Trends in genetics : TIG.
[83] J. Till,et al. A direct measurement of the radiation sensitivity of normal mouse bone marrow cells. , 1961, Radiation research.
[84] B. Hogan,et al. Bmp4 is required for the generation of primordial germ cells in the mouse embryo. , 1999, Genes & development.