Localization of phospholipase D genes on the human chromosome and various tissues of rat / 대한해부학회지

Phospholipase D (PLD) catalyzes the hydrolysis of phosphatidylcholine to phosphatidic acid and choline. A variety of signal molecules such as hormones, neurotransmitters, extracellular matrix molecules, and growth factors are known to induce the activation of PLD in a wide range of cell types. Hence PLD is implicated in a broad spectrum of physio-logical processes and diseases, including mitogenesis, cell differentiation, metabolic regulation, secretion, neural and cardiac stimulation, inflammation, oncogenesis, and diabetes. The signal-dependent activation of PLD has been observed in a variety of brain and neural-derived cells. In this paper, human chromosomal locations and developmental neural expression patterns in rat of PLD1 and PLD2 were investigated with fluorescent in situ hybridization (FISH) and in situ hybridization histochemistry, respectively. The PLD1 was assigned to human chromosome 3q26 and expressed most strikingly in selected ventricular neural cells lining spinal cord and brain during neuronal differentiation and migration period. The PLD2 was assigned to human chromosome 17p13.1 and expressed in differentiating ventricular neural cells and multiple regions of the postnatal rat brain.

Cloning and characterization of developmentally differentially expressed novel genes from developing rat cerebral cortex / 대한해부학회지

The structural complexity and heterogeneity of cerebral cortex have been obvious since the earliest days of light microscopy. In fact, if there is one word that captures many of the key attributes of cortical structures, it is diversity. Neurodevelopmental approach is the one of the effective ways to understand complicated structures of cerebral cortex. In this experiment, as a first step to clone the genes related with development of cerebral cortex, the developmentally differentially expressed genes were cloned from developing rat brain with ordered differential display PCR(ODD-PCR). Novel genes were screened from these cloned genes by sequencing and sequence analysis with blast search program. The developmental expression patterns of novel genes in the cerebral cortex were investigated with in situ hybridization histochemistry on the developing and adult rat brain sections. Among the forty one developmentally differentially expressed cDNA bands, amplified with InEGA primer and TEAC primer by ODD PCR, twenty novel genes were screened by sequencing and sequence analysis with blast search program. Through the investigation of developmental expression pattern with in situ hybridization histochemistry, specific expression of five novel genes in the developing rat cerebral cortex was identified. 20-E14-2 was highly expressed in the cerebral cortex during the period of neurogenesis. The expression of 20-E20-1, 20-E20-6b, and 20-P0-5 was relatively well matched with neuronal cell migration in the cerebral cortex. And the strong expression of 20-P0-8b was observed in the neuronal cells of cerebral cortex during the period of syanptogenesis. From these results, it may be suspected that the five novel genes play roles in the development of cerebral cortex.