Emery, R.J. N

Using Drosophila deficiency (Df) and Over Expression (OE) (GAL4/UAS>dCas9-VPR; sgRNA) gene systems, it was demonstrated that Dmel_CG31381 and Dmel_CG11089 are functional tRNA isopentenyltransferase (EC 2.5.1.8) genes (tRNA IPT1 and IPT2) critical to the first committed step in insect cytokinin biosynthesis. IPT Df mutants showed significant decreases in total CK levels and IPT1/IPT2 transcript levels compared to parent lines. IPT OE mutants showed significant increases in total CK levels and IPT1/IPT2 transcript levels compared to parent lines. Further, endogenous CK analyte levels and qPCR relative fold gene expression of Dmel_CG31381 and Dmel_CG11089 (tRNA IPT1 and IPT2) genes demonstrated expression patterns with functional confirmation corresponding to the predicted IPT mutant variants. The functional confirmation of tRNA IPT1 and IPT2 as the first committed step was further supported by the bioinformatic detection of putative gene homologs to corroborate seven remaining enzyme transcripts supporting the novel description of a CK biosynthesis pathway in insects.

Author Keywords: Cytokinin Biosynthesis, Drosophila, gene expression, Insect Gall, mass spectrometry, tRNA IPT