Abstract
Primers having suboptimal amplification efficiencies were shown to falsely represent fold change expression of the N-methyltransferases gene family involved in caffeine biosynthesis in Coffea canephora. To study this phenomenon, the role of stability of the internal reference gene, as well as the amplification efficiency correction of the primers was investigated. GAPDH and Ubiquitin exhibited a good stability for studying the ontogeny of endosperm tissue, as well as the leaf transcriptome during stress from salicylic acid, methyl jasmonate, PEG-mediated drought and sudden exposure to light. Ubiquitin manifested low variation in Cq under all these stress regimes and in endosperm ontogeny with 30.1-30.9 in the best dataset and 28.8-30.9 in the most deviating dataset. It was observed that problems arising due to improper amplification efficiency of the target or reference genes or both could lead to misinterpretation of gene expression levels. Quantitative RT-PCR performed at a sub-optimal efficiency of GAPDH reference gene at 1.68 led to the faulty interpretation of 2.007 folds upregulation by the 2(-ΔΔCt) method and 1.705 folds upregulation by Efficiency method for the first NMT (Xanthosine methyltransferase), which actually is repressed during dark acclimatization of coffee plants. Efficiency correction improved the reliability of the expression data and also indicated a downregulation of this gene by 0.485 folds and 0.474 folds using 2(-ΔΔCt) and E method, respectively, in concordance to earlier reports. Hence, efficiency correction of the primers having suboptimal efficiencies is an absolute prerequisite for the accurate calculation of fold change using quantitative RT-PCR.