Biomedical Engineering Reference
In-Depth Information
177. Adams GB, Chabner KT, Alley IR et al (2006) Stem cell engraftment at the endosteal niche
is specified by the calcium-sensing receptor. Nature 439:599-603
178. Tanentzapf G, Devenport D, Godt D et al (2007) Integrin-dependent anchoring of a stem-
cell niche. Nat Cell Biol 9(12):1413-1418
179. Dennis E, Discher D, Mooney DJ et al (2009) Growth factors, matrices, and forces combine
and control stem cells. Science 324:1673-1677
180. Vicente-Manzanares M, Ma X, Adelstein RS et al (2009) Non-muscle myosin II takes
centre stage in cell adhesion and migration. Nat Rev Mol Cell Biol 10:778-790
181. Tobiasch E, Winter H, Schweizer J (1992) Structural features and sites of expression of a
new murine 65 kD and 48 kD hair-related keratin pair, associated with a spezial type of
parakeratotic epithelial differentiation. Differentiation 50:163-178
182. Gurumurthy
S,
Xie
SZ,
Alagesan
B
(2010)
The
Lkb1
metabolic
sensor
maintains
haematopoietic stem cell survival. Nature 468:659-663
183. Jia C, Doherty JP, Crudgington S et al (2009) Activation of purinergic receptors induces
proliferation and neuronal differentiation in Swiss Webster mouse olfactory epithelium.
Neuroscience 163:120-128
184. Xi R, Xie T (2005) Stem cell-renewal controlled by chromatin remodelling factors. Science
310:1487-1489
185. Mylotte LA, Duffy AM, Murphy M et al (2008) Metabolic flexibility permits mesenchymal
stem cell survival in an ischemic environment. Stem Cells 5:1325-1336
186. D'Atri LP, Etulain J, Romaniuk MA et al (2011) The low viability of human CD34+ cells
under acidic conditions is improved by exposure to thrombopoietin, stem cell factor,
interleukin-3,
or
increased
cyclic
adenosine
monophosphate
levels.
Transfusion.
doi:
187. Zippel N, Scholze NJ, Müller CA et al (2011) Purinergic receptors influence the
differentiation of human mesenchymal stem cells. Stem Cells Develop.
doi:10.1089/scd.
2010.0576
[Epub ahead of print]
188. De Proost I, Pintelon I, Wilkinson WJ et al (2009) Purinergic signalling in the pulmonary
neuroepitelial
body
microenvironment
unravelled
by
live
cell
imaging.
FASEB
J
4:1153-1160
189. Williams SE, Beronja S, Pasolli HA et al (2011) Asymmetric cell divisions promote Notch-
dependent epidermal differentiation. Nature 470:353-358
190. Ehninger A, Trumpp A (2011) The bone marrow stem cell niche grows up: mesenchymal
stem cells and macrophages move. J Exp Med 208:421-428
191. Visigalli I, Biffi A (2011) Maintenance of a functional hematopoietic stem cell niche
through galactocerebrosidase and other enzymes. Curr Opin Hematol 18:214-219
192. Yang L, Peng R (2010) Unweiling hair follicle stem cells. Stem Cell Rev 4:658-664
193. Notara M, Shortt AJ, Galatowicz G et al (2010) IL6 and the human limbal stem cell niche: a
mediator of epithelial-stromal interaction. Stem Cell Res 3:188-200
194. Peerani R, Zandstra PW (2010) Enabling stem cell therapies through synthetic stem
cell-niche engineering. J Clin Invest 120:60-70
195. Waddington CH (1956) Principles of embryology. Allen & Unwin, London
196. Huang S, Ingber DE (2004) From stem cells to functional tissue architecture. In: Sell S (ed)
Stem cells handbook. Humana press, New Jersey
197. Curran JM, Chen R, Hunt JA (2006) The guidance of human mesenchymal stem cell
differentiation in vitro by controlled modifications to the cell substrate. Biomaterials
27:4783-4793
198. Cavalcanti-Adam EA, Aydin D, Hirschfeld-Warneken VC et al (2008) Cell adhesion and
response to synthetic nanopatterned environments by steering receptor clustering and spatial
location. HFSP J 2:276-285
199. Catledge SA, Vohra YK, Bellis SL et al (2004) Mesenchymal stem cell adhesion and
spreading on nanostructured biomaterials. J Nanosci Nanotech 4:986-989
200. Pennisi CP, Sevencu C, Dolatshahi-Pirouz A et al (2009) Responses of fibroblasts and glial
cells to nanostructured platinum surfaces. Nanotechnology 20:1-9
Search WWH ::
Custom Search