Identification of Anther-Specific Genes from Sesame and Functional Assessment of the Upstream Region of a Tapetum-Specific β-1,3-glucanase Gene

Sesamum indicum is widely cultivated in India for its superior agronomic characters like adaptation to the warm climate of India and resistance to drought and pathogen attack. However, the yield of sesame per unit area of land is quite low. In this context, the genes involved with reproductive tissue development is very important since they are directly involved with crop productivity. Therefore, identification and isolation of anther-specific genes through PCR-Select cDNA subtraction between cDNAs of anthers and leaves was carried out. Sequencing of ~ 700 clones from the cDNA subtraction library followed by BLASTX analysis using sesame database resulted in the identification of 163 annotated unique transcripts, of which 18 transcripts showed homology with the genes of exclusive anther-/pollen-specific functions. Furthermore, anther-specific expression of some of the sesame transcripts as well as already identified anther-specific genes of Arabidopsis and rice have been monitored during development of sesame anthers. Subsequently, full-length cDNA sequence and the upstream sequence of an anther-specific β-1 3-glucanase gene was isolated. Transgenic tobacco plants were developed with GUS gene under the control of a 437-bp upstream sequence along with the first exon and first intron of the gene. Monitoring of GUS gene expression pattern indicated exclusive expression of the promoter in the tapetal cell layer before tetrad formation in the anther. Interestingly, upon treatment with ABA as well as drought stress, GUS was found to express in the vegetative parts of the plant such as leaves and roots as well.