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Development and regeneration

Purinergic signalling is also concerned with longterm events, such as cell proliferation, migration, differentiation and death associated with development and regeneration [1, 3, 4]. For example, a,(3-methylene ATP produces proliferation of glial cells, whereas adenosine inhibits proliferation. A p2y8 receptor was... [Pg.1051]

Axonal growth and regeneration are limited by rates of slow axonal transport. The rate of axonal growth during development and regeneration of a nerve is roughly... [Pg.494]

Scadding, S.R. 1990. Effects of tributyltin oxide on the skeletal structures of developing and regenerating limbs of axolotyl larvae, Ambystoma mexicanum. Bull. Environ. Contam. Toxicol. 45 574-581. [Pg.632]

McDowell, E. M., Ben, T., Newkirk, C., Chang, S., and De Luca, M. (1987b). Differentiation of tracheal mucociliary epithelium in primary cell culture recapsulates normal fetal development and regeneration following injury in hamsters. Am. J. Pathol. 129,511-522. [Pg.214]

Laabs, T., Carulli, D., Geller, H. M., and Fawcett, J. W. (2005). Chondroitin sulfate proteoglycans in neural development and regeneration. Curr. Opin. Neurobiol. 15,116-120. [Pg.27]

Lung Development and Regeneration, edited by D. J. Massaro, G. Massaro, and P. Chambon... [Pg.602]

Lima L, Obregon F, Cubillos S, Fazzino F, and Jaimes I (2001) Taurine as a micronutrient in development and regeneration of the central nervous system. Nutritional Neuroscience 4, 439-43. [Pg.437]

Kato H> Chen S, Kiyama H ct al. Identification of a novel WD repeat—containing gene predominantly expressed in developing and regenerating neuron. J Biochem 2000 128 923-32. [Pg.30]

Silver J. 1994. Inhibitory molecules in development and regeneration. J Neurol 242 S22-S24. [Pg.45]

Akimenko, M.A., Johnson, S.L., Westerfield, M., Ekker, M. 1995. Differential induction of four Msx homeobox genes during fin development and regeneration in zebrafish. Development 121, 347-357. [Pg.63]

Subramanian, V., Meyer, B., Evans, G.S. 1998. The murine Cdxl gene product localises to the proliferative compartment in the developing and regenerating intestinal epithelium. Differentiation 64, 11-18. [Pg.103]

Ultrastructural localizations of laminin have also been carried out at the electron microscope level during development and regeneration of the mouse sciatic nerve (Kuecherer-Ehret et al., 1990), in order to ascertain the distribution of laminin during elaboration of the peripheral nervous system. Laminin distribution is not restricted to the BL secreted by the Schwann cells, but is also found in direct contact with developing axons, as well as on the surface of the Schwann cells such a distribution reinforces the idea that laminin is involved in the outgrowth process in vivo. [Pg.81]

Agrin appears to direct the aggregation of AChRs at both developing and regenerating neuromuscular Junctions (see review by Hall and Sanes, 1993). [Pg.317]

Saint-Come, C., Acker, G.R. and Strand, F.L. (1982) Peptide influences on the development and regeneration of motor performance. Peptides 3 439-449. [Pg.335]

Caroni, P. (1992) Signalling by muscle-derived IGFs in neuromuscular junction development and regeneration. N.Y. Acad. Sci. Abstr. 17 27. [Pg.415]

Caroni, P. and Schneider, C. (1992) Activity-sensitive signalling by insulin-like growth factors in the developing and regenerating neuromuscular system. Soc. Neurosci. Abstr. 18 1095. [Pg.415]

Trophic effects in the development and regeneration of the nervous system... [Pg.723]

Fig. 1 Biofilm development and regeneration illustrated in six steps. Step 1 initial attachment to substratum Step 2 synthesis of EPS to establish more secure association with substratum Step 3 bacterial replication on the substratum and microcolony formation Step 4 formation of mature biofilm Step 5 sloughing and detachment of portions of biofilm Step 6 recolonization of areas of substratum exposed by sloughing events [5]. Fig. 1 Biofilm development and regeneration illustrated in six steps. Step 1 initial attachment to substratum Step 2 synthesis of EPS to establish more secure association with substratum Step 3 bacterial replication on the substratum and microcolony formation Step 4 formation of mature biofilm Step 5 sloughing and detachment of portions of biofilm Step 6 recolonization of areas of substratum exposed by sloughing events [5].
Vol. 22 Neural Development and Regeneration. Cellular and Molecular Aspects. [Pg.411]

Identification and application of those genes regulating plant development and regeneration may lead to new approaches for plant regeneration in vitro. [Pg.365]

Muneoka, K. and Bryant, V. (1982) Evidence that patterning mechanisms in developing and regenerating limbs are the same. Nature 298,369-371. [Pg.479]

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See also in sourсe #XX -- [ Pg.211 ]



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