Transcriptional status of known and novel genes tagged with consensus of 33.15 repeat loci employing minisatellite-associated sequence amplification (MASA) and real-time PCR in water buffalo, Bubalus bubalis

Abstract

We conducted minisatellite-associated sequence amplification (MASA) with an oligo (5' CACCTCTCCACCTGCC 3') based on consensus of 33.15 repeat loci using cDNA from the testis, ovary, spleen, kidney, heart, liver, and lung of water buffalo Bubalus bubalis and uncovered 25 amplicons of six different sizes (1263, 846/847, 602, 576, 487, and 324 base pairs). These fragments, cloned and sequenced, were found to represent several functional, regulatory, and structural genes. Blast search of all the 25 amplicons showed homologies with 43 transcribing genes across the species. Of these, the 846/847-bp fragment, having homology with the adenylate kinase gene, showed nucleotide changes at six identical places in the ovary and testis. The 1263; 324; and 487-bp fragments showed homology with the secreted modular calcium binding protein (SMOC-1), leucine-rich repeat neuronal 6A (LRRN6A) mRNA, and human TTTY5 mRNA, respectively. Real-time PCR showed maximum expression of AKL, LRRN6A, and T-cell receptor gamma (TCR-γ)-like genes in the testis, SMOC-1 in the liver, and the T-cell receptor-like (TCRL) gene in the spleen compared to those used as endogenous control. We construe that these genes have evolved from a common progenitor and conformed to various biological functions during the course of evolution. MASA approach coupled with real-time PCR has potentials to uncover accurate expression of a large number of genes within and across the species circumventing the screening of cDNA library.