TY - JOUR
T1 - Transcriptome profile and cytogenetic analysis of immortalized neuronally restricted progenitor cells derived from the porcine olfactory bulb
AU - Uebing-Czipura, A. U.
AU - Dawson, H. D.
AU - Rutherford, M. S.
AU - Scherba, G.
N1 - Funding Information:
The authors thank Dr. J. Drnevich for the statistical analysis of the microarrays and Dr. M.A. Wallig for advice on the karyotype analysis. The cytogenetic studies were carried out by D. Lewis and Dr. S.M. Gollin in the University of Pittsburgh Cancer Institute Cytogenetics Facility, supported in part by NIH grant P30CA047904 to Ronald B. Herberman. The authors also thank Dr. W.M. Schnitzlein for his editorial review of the manuscript. This material is based upon work partially supported by the Public Health Service Award No. 5R21AI61380-2 from the National Institutes of Health.
PY - 2009/10
Y1 - 2009/10
N2 - Recently, we established and phenotypically characterized an immortalized porcine olfactory bulb neuroblast cell line, OBGF400 (1). To facilitate the future application of these cells in studies of neurological dysfunctions and neuronal pathogen interactions, a comprehensive knowledge of their genomic variability and overall gene expression capacity was pursued. Accordingly, the OBGF400 cells were subjected to karyotyping and more extensive transcriptome analyses. Cytogenetic characterization of these cells revealed a genetic mosaicism of neuronal hyperdiploidy. A direct comparison of the OBGF400 cell transcriptome pattern, generated by utilizing the Affymetrix GeneChip Porcine Genome Array, to that of a non-neural, porcine epithelial cell line facilitated the identification of 831 probe sets preferentially hybridized by the neuroblast transcripts. Subsequent functional annotation of these OBGF400 RNAs using the Database for Annotation, Visualization and Integrated Discovery 2008 enabled their allocation to the corresponding gene ontology biological process term, thereby assisting the recognition of key elements involved in the regulation of neuronal signal transduction and neurogenesis.
AB - Recently, we established and phenotypically characterized an immortalized porcine olfactory bulb neuroblast cell line, OBGF400 (1). To facilitate the future application of these cells in studies of neurological dysfunctions and neuronal pathogen interactions, a comprehensive knowledge of their genomic variability and overall gene expression capacity was pursued. Accordingly, the OBGF400 cells were subjected to karyotyping and more extensive transcriptome analyses. Cytogenetic characterization of these cells revealed a genetic mosaicism of neuronal hyperdiploidy. A direct comparison of the OBGF400 cell transcriptome pattern, generated by utilizing the Affymetrix GeneChip Porcine Genome Array, to that of a non-neural, porcine epithelial cell line facilitated the identification of 831 probe sets preferentially hybridized by the neuroblast transcripts. Subsequent functional annotation of these OBGF400 RNAs using the Database for Annotation, Visualization and Integrated Discovery 2008 enabled their allocation to the corresponding gene ontology biological process term, thereby assisting the recognition of key elements involved in the regulation of neuronal signal transduction and neurogenesis.
KW - Cytogenetic analysis
KW - Neuronal aneuploidy
KW - Porcine neuronal progenitor cell line
KW - Transcriptome pattern
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U2 - 10.1080/10495390903139950
DO - 10.1080/10495390903139950
M3 - Article
C2 - 19937495
AN - SCOPUS:70349852661
SN - 1049-5398
VL - 20
SP - 186
EP - 215
JO - Animal Biotechnology
JF - Animal Biotechnology
IS - 4
ER -