Abstract
BackgroundThe miniature pig provides an excellent experimental model for tooth morphogenesis because its diphyodont and heterodont dentition resembles that of humans. However, little information is available on the process of tooth development or the exact molecular mechanisms controlling tooth development in miniature pigs or humans. Thus, the analysis of gene expression related to each stage of tooth development is very important.ResultsIn our study, after serial sections were made, the development of the crown of the miniature pigs’ mandibular deciduous molar could be divided into five main phases: dental lamina stage (E33-E35), bud stage (E35-E40), cap stage (E40-E50), early bell stage (E50-E60), and late bell stage (E60-E65). Total RNA was isolated from the tooth germ of miniature pig embryos at E35, E45, E50, and E60, and a cDNA library was constructed. Then, we identified cDNA sequences on a large scale screen for cDNA profiles in the developing mandibular deciduous molars (E35, E45, E50, and E60) of miniature pigs using Illumina Solexa deep sequencing. Microarray assay was used to detect the expression of genes. Lastly, through Unigene sequence analysis and cDNA expression pattern analysis at E45 and E60, we found that 12 up-regulated and 15 down-regulated genes during the four periods are highly conserved genes homologous with known Homo sapiens genes. Furthermore, there were 6 down-regulated and 2 up-regulated genes in the miniature pig that were highly homologous to Homo sapiens genes compared with those in the mouse.ConclusionOur results not only identify the specific transcriptome and cDNA profile in developing mandibular deciduous molars of the miniature pig, but also provide useful information for investigating the molecular mechanism of tooth development in the miniature pig.
Highlights
The miniature pig provides an excellent experimental model for tooth morphogenesis because its diphyodont and heterodont dentition resembles that of humans
Our group has been dedicated to investigating the complicated mechanism of tooth development in miniature pigs, including the mRNA expression profiles of developing deciduous molar tooth [21], and the timing and sequencing of tooth replacement [22]
We found that 12 up-regulated and 15 down-regulated genes may be involved in the miniature pig’s tooth development
Summary
The miniature pig provides an excellent experimental model for tooth morphogenesis because its diphyodont and heterodont dentition resembles that of humans. Mouse teeth are different from those of humans in both number and morphology, with only one dentition present throughout the mouse life cycle and a complete absence of canines and premolars [20]. The purpose of the present study was to identify and classify the early stages of odontogenesis in miniature pig’s deciduous molar teeth, focusing on the differential expression of cDNAs during typical periods of tooth development. We compared the genes from the E45 to E60 time course during tooth development with those of known Homo sapiens genes, and aimed to obtain basic information about their development for further molecular studies. We found there were 6 down-regulated and 2 up-regulated genes with high homology to those in Homo sapiens, and compared these with those in mouse
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