Zobrazeno 1 - 10
of 19
pro vyhledávání: '"Tomer Sivron"'
Autor:
Tomer Sivron, Michal Schwartz
Publikováno v:
Glia. 13:157-165
Axons of the mammalian central nervous system do not regenerate spontaneously after axonal injury, unlike the central nervous system axons of fish and amphibians and the peripheral nervous system of mammals, which possess a good regenerative ability
Publikováno v:
The Journal of Comparative Neurology. 343:237-246
This study shows that the fish optic nerve, which is able to regenerate after injury, contains myelin-associated growth inhibitors similar to the growth inhibitors present in mammalian central nervous system (CNS) myelin. The ability of nerves to reg
Publikováno v:
Cell & Tissue Research. 275:327-337
The expression of intermediate filaments is developmentally regulated. In the mammalian embryo keratins are the first to appear, followed by vimentin, while the principal intermediate filament of the adult brain is glial fibrillary acidic protein. Th
Publikováno v:
Glia. 4:591-601
Mammalian central nervous system (CNS) axons are virtually incapable of regenerating after injury. However, CNS neurons of lower vertebrates, such as fish and amphibians, are endowed with a high regenerative capacity. Lately, the glial cells have bee
Publikováno v:
Glia. 3:267-276
Crushed fish optic axons readily regenerate, while similarly injured rat optic axons do not; the reasons for the differences in regeneration ability may lie in differences in the environment of the axons. We have cultured glial cells from previously
Autor:
Tomer Sivron, Michal Schwartz
Publikováno v:
Experimental Neurology. 130:411-413
Fish optic nerve sections were recently shown to be nonpermissive to growth of adult retinal axons. In addition, fish optic nerve myelin was found to inhibit growth of adult retinal axons and this inhibition was neutralized by IN-1 antibodies (known
Autor:
Tomer Sivron, Michal Schwartz
Publikováno v:
Trends in neurosciences. 17(7)
Recent results shed new light on how some nervous systems can regenerate after injury while others cannot. Until recently, it was widely believed that the main difference between systems that regenerate and those that do not lies in the normal state
Publikováno v:
Glia. 10(1)
The poor regenerative ability of neurons of the central nervous system in mammals, as compared with their counterpart in fish or amphibians, is thought to stem from differences in their immediate nonneuronal environment and its response to axonal inj
Autor:
Shoshana Eitan, Michal Schwartz, Tomer Sivron, Mirit Lotan, David L. Hirschberg, Anat Elman-Faber
Publisher Summary The ability or inability of nerves to regenerate their injured axons depends on the cellular milieu surrounding the axons and its response to axonal injury. Recent research has shed more light on the nature of these cells and their
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_________::f48f961a2e385d59303504c280cd0648
https://doi.org/10.1016/s0079-6123(08)61147-4
https://doi.org/10.1016/s0079-6123(08)61147-4