De novo transcriptome assembly of transgenic tobacco (Nicotiana tabacum NC89) with early senescence characteristic.

The enzyme, α-farnesene synthase (AFS), which synthesizes α-farnesene, is the final enzyme in α-farnesene synthesis pathway. We overexpressed the α-farnesene synthase gene (previously cloned in our lab from apple peel) and ectopically expressed it in tobacco (Nicotiana tabacum NC89). Then, the transgenic plants showed an accelerated developmental process and bloomed about 7 weeks earlier than the control plants. We anticipate that de novo transcriptomic analyses of N. tabacum may provide useful information on isoprenoid biosynthesis, growth, and development. We generated 318,925,338 bp sequencing data using Illumina paired-end sequencing from the cDNA library of the apical buds of transgenic line and the wild-type line. We annotated and functionally classified the unigenes in a nucleotide and protein database. Differentially expressed unigenes may be involved in carbohydrate metabolism, nitrogen metabolism, transporter activity, hormone signal transduction, antioxidant systems and transcription regulator activity particularly related to senescence. Moreover, we analyzed eight genes related to terpenoid biosynthesis using qRT-PCR to study the changes in growth and development patterns in the transgenic plants. Our study shows that transgenic plants show premature senescence. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s12298-021-00953-z. © Prof. H.S. Srivastava Foundation for Science and Society 2021.