SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2118077969> ?p ?o ?g. }

Showing items 1 to 100 of ±167 with 100 items per page.

W2118077969 endingPage "513" @default.
W2118077969 startingPage "503" @default.
W2118077969 abstract "The granule cell layer of the adult dentate gyrus possesses two characteristics of an immature nervous system. The first is that granule cells continue to be generated in the innermost region of the granule cell layer, and newly generated and developing granule cells in the adult express highly polysialylated neural cell adhesion molecule (PSA-NCAM). PSA-NCAM-expressing apical dendrites have dynamically unstable processes such as irregular shafts and many stick-like or fan-shaped fine processes. The second is that radial glia-like cells expressing glial fibrillary acidic protein (GFAP) remain in a similar region of the granular layer. The numbers of PSA-NCAM-expressing granule cells and GFAP-expressing radial glia-like cells show a parallel age-dependent decrease during aging. Moreover, by using confocal laser scanning microscopy and immunoelectron microscopy, we demonstrated that PSA-NCAM-expressing dendrites and GFAP-expressing radial processes are partly in contact with each other, and occasionally the radial glial processes envelop the PSA-NCAM-positive dendritic processes. The temporal and spatial relationship between the two immature elements suggests that the processes of the radial glia-like cells are closely associated with the dendritic growth of the newly generated granule cells in the adult dentate gyrus and that these two immature features of neurons and glia in the dentate gyrus diminish with age. J. Comp. Neurol. 410:503–513, 1999. © 1999 Wiley-Liss, Inc." @default.
W2118077969 created "2016-06-24" @default.
W2118077969 creator A5022626452 @default.
W2118077969 creator A5030673235 @default.
W2118077969 date "1999-08-02" @default.
W2118077969 modified "2023-09-26" @default.
W2118077969 title "Temporal and spacial relationships between PSA-NCAM-expressing, newly generated granule cells, and radial glia-like cells in the adult dentate gyrus" @default.
W2118077969 cites W1540319467 @default.
W2118077969 cites W1542947630 @default.
W2118077969 cites W1603255570 @default.
W2118077969 cites W1808420693 @default.
W2118077969 cites W1878407535 @default.
W2118077969 cites W1879812296 @default.
W2118077969 cites W1901042123 @default.
W2118077969 cites W1906569886 @default.
W2118077969 cites W1936589222 @default.
W2118077969 cites W1963922629 @default.
W2118077969 cites W1965822810 @default.
W2118077969 cites W1967095650 @default.
W2118077969 cites W1970436748 @default.
W2118077969 cites W1975741118 @default.
W2118077969 cites W1977049712 @default.
W2118077969 cites W1977591896 @default.
W2118077969 cites W1977640628 @default.
W2118077969 cites W1979612418 @default.
W2118077969 cites W1980499453 @default.
W2118077969 cites W1982248825 @default.
W2118077969 cites W1982641454 @default.
W2118077969 cites W1985244709 @default.
W2118077969 cites W1985702485 @default.
W2118077969 cites W1986586826 @default.
W2118077969 cites W1991761631 @default.
W2118077969 cites W2002856175 @default.
W2118077969 cites W2005791282 @default.
W2118077969 cites W2007242343 @default.
W2118077969 cites W2008203029 @default.
W2118077969 cites W2008951867 @default.
W2118077969 cites W2009190004 @default.
W2118077969 cites W2009457639 @default.
W2118077969 cites W2013411280 @default.
W2118077969 cites W2017467025 @default.
W2118077969 cites W2017559087 @default.
W2118077969 cites W2017726307 @default.
W2118077969 cites W2018048839 @default.
W2118077969 cites W2018686378 @default.
W2118077969 cites W2019147425 @default.
W2118077969 cites W2021246719 @default.
W2118077969 cites W2021454514 @default.
W2118077969 cites W2025399675 @default.
W2118077969 cites W2035250926 @default.
W2118077969 cites W2035347548 @default.
W2118077969 cites W2038388094 @default.
W2118077969 cites W2038459325 @default.
W2118077969 cites W2038576003 @default.
W2118077969 cites W2040008847 @default.
W2118077969 cites W2040913237 @default.
W2118077969 cites W2044237630 @default.
W2118077969 cites W2044908499 @default.
W2118077969 cites W2047174661 @default.
W2118077969 cites W2048064609 @default.
W2118077969 cites W2050120618 @default.
W2118077969 cites W2050572104 @default.
W2118077969 cites W2050893705 @default.
W2118077969 cites W2059471650 @default.
W2118077969 cites W2063607340 @default.
W2118077969 cites W2067856703 @default.
W2118077969 cites W2077630079 @default.
W2118077969 cites W2078145367 @default.
W2118077969 cites W2078965564 @default.
W2118077969 cites W2079156156 @default.
W2118077969 cites W2084751245 @default.
W2118077969 cites W2085417640 @default.
W2118077969 cites W2085938738 @default.
W2118077969 cites W2088261136 @default.
W2118077969 cites W2088975629 @default.
W2118077969 cites W2095042268 @default.
W2118077969 cites W2095318415 @default.
W2118077969 cites W2096492217 @default.
W2118077969 cites W2106267269 @default.
W2118077969 cites W2116938887 @default.
W2118077969 cites W2120899418 @default.
W2118077969 cites W2124980980 @default.
W2118077969 cites W2125885551 @default.
W2118077969 cites W2130183688 @default.
W2118077969 cites W2139450672 @default.
W2118077969 cites W2145235967 @default.
W2118077969 cites W2147834858 @default.
W2118077969 cites W2150936467 @default.
W2118077969 cites W2153144663 @default.
W2118077969 cites W4252141089 @default.
W2118077969 cites W4366658026 @default.
W2118077969 doi "https://doi.org/10.1002/(sici)1096-9861(19990802)410:3<503::aid-cne11>3.0.co;2-h" @default.
W2118077969 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/10404415" @default.
W2118077969 hasPublicationYear "1999" @default.
W2118077969 type Work @default.
W2118077969 sameAs 2118077969 @default.
W2118077969 citedByCount "106" @default.
W2118077969 countsByYear W21180779692012 @default.