Transcriptome-wide identification of development related genes and pathways in Tribolium castaneum.

The growth and development in Tribolium castaneum were poorly understood at the transcriptome level. Currently, we identified 15,756, 9941 and 10,080 differentially expressed transcripts between late eggs VS early larvae, late larvae VS early pupae, and late pupae VS early adults of T. castaneum by RNA-seq, which was confirmed by qRT-PCR analysis on nine genes expression. Functional enrichment analysis indicated that DNA replication, cell cycle and insect hormone biosynthesis significantly enriched differentially expressed genes. The transcription of DNA replication and cell cycle genes decreased after hatching but increased after pupation. The juvenile hormone (JH) and ecdysteroid biosynthesis genes decreased after hatching, and the JH degradation genes were stimulated after pupation and eclosion while the ecdysteroid degradation gene CYP18A1 decreased after pupation. Silencing CYP18A1 elevated the titer of ecdysteroids and caused developmental arrest at the late larval stage. This study promotes the understanding of insect growth and development. • The transcription of DNA replication and cell cycle genes decreased after hatching but increased after pupation. • The JH and 20E biosynthesis genes decreased after hatching, and the JH degradation genes were stimulated after metamorphosis. • The ecdysteroid degradation gene CYP18A1 decreased after pupation. • Silencing CYP18A1 elevated the titer of ecdysteroids and caused developmental arrest at the late larval stage. [ABSTRACT FROM AUTHOR]