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Stage‐specific gene expression in early differentiating oligodendrocytes
Author(s) -
Blasi Francesca,
Ciarrocchi Alessia,
Luddi Alice,
Strazza Michelina,
Riccio Massimo,
Santi Spartaco,
Arcone Rosaria,
Pietropaolo Concetta,
D'Angelo Romina,
CostantinoCeccarini Elvira,
Melli Marialuisa
Publication year - 2002
Publication title -
glia
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.954
H-Index - 164
eISSN - 1098-1136
pISSN - 0894-1491
DOI - 10.1002/glia.10092
Subject(s) - biology , oligodendrocyte , microbiology and biotechnology , in situ hybridization , messenger rna , cdna library , northern blot , complementary dna , gene expression , progenitor cell , gene , stem cell , myelin , genetics , neuroscience , central nervous system
The screening of a differential library from precursor and differentiated oligodendrocytes, obtained through the representational difference analysis (RDA) technique, has generated a number of cDNA recombinants corresponding to mRNA coding for known and unknown proteins: (1) mRNA coding for proteins involved in protein synthesis, (2) mRNA coding for proteins involved in the organization of the cytoskeleton, and (3) mRNA coding for proteins of unknown function. The expression profile of the mRNA was studied by Northern blot hybridization to the poly‐A + mRNA from primary rat progenitor and differentiated oligodendrocytes. In most cases, hybridization to the precursor was higher than hybridization to the differentiated mRNA, supporting the validity of the differential screening. Hybridization of the cDNA to rat cerebral hemisphere and brain stem poly‐A + mRNA, isolated from 1‐ to 90‐day‐old rats, confirms the results obtained with the mRNA from differentiating oligodendrocytes. The intensity of the hybridization bands decreases as differentiation proceeds. The pattern of expression observed in oligodendrocytes is different from that found in the brain only in the case of the nexin‐1 mRNA, the level of which remains essentially constant throughout differentiation both in the brain stem and in the cerebral hemispheres, in agreement with the published data. In contrast, the intensity of hybridization to the oligodendrocyte mRNA is dramatically lower in the differentiated cells compared with the progenitor oligodendrocyte cells. Some of the recombinant cDNA represent mRNA sequences present at high frequency distribution in the cells, while others belong to the rare sequences group. Six recombinants code for proteins of the ribosomal family, suggesting that of approximately 70 known ribosomal proteins, only a few are upregulated during oligodendrocyte differentiation. The third category of open reading frame (ORF) is represented by rare messengers coding for proteins of unknown functions and includes six clones: RDA 279, 11, 95, 96, 254, and 288. GLIA 39:114–123, 2002. © 2002 Wiley‐Liss, Inc.

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