Genome-wide identification of the Tubby-Like Protein (TLPs) family in medicinal model plant Salvia miltiorrhiza

Abstract

Tubby-Like Proteins (TLPs) are important transcription factors with many functions and are found in both animals and plants. In plants, TLPs are thought to be involved in the abiotic stress response. To reveal the potential function of TLPs in the medicinal model plant Salvia miltiorrhiza, we identified 12 S. miltiorrhiza TLPs (SmTLPs) and conducted a comprehensive analysis. We examined SmTLP gene structure, protein structure, phylogenetics, and expression analysis. Our results show that all SmTLPs, except SmTLP11, have a complete typical Tub domain. Promoter analysis revealed that most SmTLPs are involved in hormone and abiotic stress responses. Expression analysis revealed that the 12 SmTLPs could be divided into three categories: those specifically expressed in roots, those specifically expressed in stems, and those specifically expressed in leaves. Additional studies have shown that SmTLP10 may play an important role in the plant cold resistance, while SmTLP12 may be involved in the S. miltiorrhiza ABA metabolic pathway. Our study represents the first comprehensive investigation of TLPs in S. miltiorrhiza. These data may provide useful clues for future studies and may support the hypotheses regarding the role of TLPs in plant abiotic stress process. All in all, we may provide a reference for improving S. miltiorrhiza quality using genetic engineering technology.