Search results for 'MAMMARY EPITHELIUM' (try it on Scholar)

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  1. A. M. Soto & C. Sonnenschein (2006). Emergentism by Default: A View From the Bench. [REVIEW] Synthese 151 (3):361-376.score: 60.0
    For the last 50 years the dominant stance in experimental biology has been reductionism in general, and genetic reductionism in particular. Philosophers were the first to realize that the belief that the Mendelian genes were reduced to DNA molecules was questionable. Soon, experimental data confirmed these misgivings. The optimism of molecular biologists, fueled by early success in tackling relatively simple problems has now been tempered by the difficulties encountered when applying the same simple ideas to complex problems. We analyze three (...)
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  2. Juan Ramón Martínez‐Morales, Isabel Rodrigo & Paola Bovolenta (2004). Eye Development: A View From the Retina Pigmented Epithelium. Bioessays 26 (7):766-777.score: 15.0
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  3. Diana M. Barnes (1999). Mammary Development and Cancer (1997). Rudland PS, Fernig DG, Leinster S (Eds). Portland Press Ltd. 334 Pp. £65/$110.50 Hardback; ISBN 1–85578–087–9. [REVIEW] Bioessays 21 (1):91-92.score: 15.0
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  4. Michael D. Green, Sarah Xl Huang & Hans‐Willem Snoeck (2013). Stem Cells of the Respiratory System: From Identification to Differentiation Into Functional Epithelium. Bioessays 35 (3):261-270.score: 15.0
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  5. Charles Osei‐Bempong, Francisco C. Figueiredo & Majlinda Lako (2013). The Limbal Epithelium of the Eye – A Review of Limbal Stem Cell Biology, Disease and Treatment. Bioessays 35 (3):211-219.score: 15.0
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  6. Peter M. Siegel, William R. Hardy & William J. Muller (2000). Mammary Gland Neoplasia: Insights From Transgenic Mouse Models. Bioessays 22 (6):554-563.score: 15.0
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  7. N. Boudreau, C. J. Sympson, Z. Werb & M. J. Bissell (1995). Suppression of ICE and Apoptosis in Mammary Epithelial Cells by the Extracellular Matrix and the Cytoskeleton. Bioessays 10:104-108.score: 15.0
     
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  8. Kirsty A. Green & Leif R. Lund (2005). ECM Degrading Proteases and Tissue Remodelling in the Mammary Gland. Bioessays 27 (9):894-903.score: 15.0
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  9. M. Morales, J. Ramon, I. Rodrigo & P. Bovolenta (2004). Eye Development: A View From the Retina Pigment Epithelium. Bioessays 26:766-777.score: 15.0
  10. David S. Salomon, Caterina Bianco & Marta De Santis (1999). Cripto: A Novel Epidermal Growth Factor (EGF)‐Related Peptide in Mammary Gland Development and Neoplasia. Bioessays 21 (1):61-70.score: 15.0
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  11. Günter H. Schmidt & Roger Mead (1990). Problems and Paradigms: On the Clonal Origin of Tumours – Lessons From Studies of Intestinal Epithelium. Bioessays 12 (1):37-40.score: 15.0
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  12. Claudia Vorbach, Mario R. Capecchi & Josef M. Penninger (2006). Evolution of the Mammary Gland From the Innate Immune System? Bioessays 28 (6):606-616.score: 15.0
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  13. Lynn M. Wiley, Gerald M. Kidder & Andrew J. Watson (1990). Cell Polarity and Development of the First Epithelium. Bioessays 12 (2):67-73.score: 15.0
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  14. Daniel J. Dickinson, W. James Nelson & William I. Weis (2012). An Epithelial Tissue in Dictyostelium Challenges the Traditional Origin of Metazoan Multicellularity. Bioessays 34 (10):833-840.score: 6.0
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  15. Stephen Klusza & Wu‐Min Deng (2011). At the Crossroads of Differentiation and Proliferation: Precise Control of Cell‐Cycle Changes by Multiple Signaling Pathways in Drosophila Follicle Cells. Bioessays 33 (2):124-134.score: 6.0
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  16. Jacques Demongeot (2009). Biological Boundaries and Biological Age. Acta Biotheoretica 57 (4).score: 3.0
    The chronologic age classically used in demography is often unable to give useful information about which exact stage in development or aging processes has reached an organism. Hence, we propose here to explain in some applications for what reason the chronologic age fails in explaining totally the observed state of an organism, which leads to propose a new notion, the biological age. This biological age is essentially determined by the number of divisions before the Hayflick’s limit the tissue or mitochondrion (...)
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  17. B. Rollin (1997). Send in the Clones ... Don't Bother, They're Here. Journal of Agricultural and Environmental Ethics 10 (1):25-40.score: 3.0
    The creation of a cloned sheep from mammary tissue has raisedmajor social concern, and much talk about major ethical issuesoccasioned by this technology. It is necessary to separategenuine from spurious ethical issues here, a task made failureto initiate ethical discussion and explanation of new technologyas well as by fear reactions in society. As in geneticengineering of animals, issues about cloning fall into threecategories – suggestions that the technology is inherently wrong,risk emerging from the technology and harm to the creatureengendered. (...)
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  18. Larry A. Taber (2000). Pattern Formation in a Nonlinear Membrane Model for Epithelial Morphogenesis. Acta Biotheoretica 48 (1).score: 3.0
    A theoretical model is presented for pattern formation in an epithelium. The epithelial model consists of a thin, incompressible, viscoelastic membrane on an elastic foundation (substrate), with the component cells assumed to have active contractile properties similar to those of smooth muscle. The analysis includes the effects of large strains and material nonlinearity, and the governing equations were solved using finite differences. Deformation patterns form when the cells activate while lying on the descending limb of their total (active + (...)
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  19. Lori B. Andrews (1998). Mom, Dad, Clone: Implications for Reproductive Privacy. Cambridge Quarterly of Healthcare Ethics 7 (2):176-186.score: 3.0
    On 5 July 1996 a sheep named Dolly was born in Scotland, the result of the transfer of the nucleus of an adult mammary tissue cell to the enucleated egg cell of an unrelated sheep, and gestation in a third, surrogate mother sheep. Although for the past ten years scientists have routinely cloned sheep and cows from embryo cells, this was the first cloning experiment that apparently succeeded using the nucleus of an adult cell.
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  20. Carole J. Clem & Jean Paul Rigaut (1995). Computer Simulation Modelling and Visualization of 3d Architecture of Biological Tissues. Acta Biotheoretica 43 (4).score: 3.0
    Recent technical improvements, such as 3D microscopy imaging, have shown the necessity of studying 3D biological tissue architecture during carcinogenesis. In the present paper a computer simulation model is developed allowing the visualization of the microscopic biological tissue architecture during the development of metaplastic and dysplastic lesions.The static part of the model allows the simulation of the normal, metaplastic and dysplastic architecture of an external epithelium. This model is associated to a knowledge base which contains only data on the (...)
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  21. Mary Warnock (1998). The Regulation of Technology. Cambridge Quarterly of Healthcare Ethics 7 (2):173-175.score: 3.0
    Everybody recognizes that most of the problems in medical ethics arise, these days, from innovations in medical technology. We would not have had to lay down laws or ethical guidelines about assisted reproduction had it not been for the new technology of in vitro fertilization, which produced the first IVF baby in 1978. We would not be currently anxious about the ethics of possible human cloning, had it not been for the production in Edinburgh of Dolly, the lamb whose birth (...)
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