1Identification of genes differentially expressed in the embryonic pig cerebral cortex before and after appearance of gyration

1Identification of genes differentially expressed in the embryonic pig cerebral cortex before and after appearance of gyration

Mammalian evolution is characterized by a progressive expansion of the surface area of the cerebral cortex, an increase that is accompanied by gyration of the cortical surface. The mechanisms controlling this gyration process are not well characterized but mutational analyses indicate that genes inv...

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Published in:BMC research notes Vol. 3; no. 1; p. 127
Main Authors: Nielsen, Karsten B, Kruhøffer, Mogens, Holm, Ida E, Jørgensen, Arne L, Nielsen, Anders L
Format: Journal Article
Language:English
Published: England BioMed Central Ltd 05-05-2010
BioMed Central
BMC
Subjects:
Brain
Data Note
Evolution
Genes
Genetic aspects
Genomics
Laboratory animals
Mammals
Migration
Monkeys & apes
Neurons
Proteins
Signal transduction
United States
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Summary:Mammalian evolution is characterized by a progressive expansion of the surface area of the cerebral cortex, an increase that is accompanied by gyration of the cortical surface. The mechanisms controlling this gyration process are not well characterized but mutational analyses indicate that genes involved in neuronal migration play an important function. Due to the lack of gyration of the rodent brain it is important to establish alternative models to examine brain development during the gyration process. The pig brain is gyrated and accordingly is a candidate alternative model. In this study we have identified genes differentially expressed in the pig cerebral cortex before and after appearance of gyration. Pig cortical tissue from two time points in development representing a non-folded, lissencephalic, brain (embryonic day 60) and primary-folded, gyrencephalic, brain (embryonic day 80) were examined by whole genome expression microarray studies. 91 differentially expressed transcripts (fold change >3) were identified. 84 transcripts were annotated and encoding proteins involved in for example neuronal migration, calcium binding, and cytoskeletal structuring. Quantitative real-time PCR was used to confirm the regulation of a subset of the identified genes. This study provides identification of genes which are differentially expressed in the pig cerebral cortex before and after appearance of brain gyration. The identified genes include novel candidate genes which could have functional importance for brain development.
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ISSN:1756-0500
1756-0500
DOI:10.1186/1756-0500-3-127