Abstract
Background: ATP-binding cassette (ABC) transporters have been found in plants and play important roles in metabolic transport in cells, which affect the subcellular compartmentalisation and tissue distribution of these compounds in particular. The dry roots and rhizomes of Salvia miltiorrhiza Bunge, a widely used medicinal plant, known as Danshen in traditional Chinese medicine, contain biologically active secondary metabolites of tanshinone and salvianolic acid. Given an assembled and annotated genome and a set of transcriptome data of S. miltiorrhiza, we analysed and identified the candidate genes that likely involved in the bioactive metabolite transportation of this medicinal plant, starting with the members of the ABC transporter family.Results: A total of 114 genes encoding ABC transporters were identified in the genome of S. miltiorrhiza. All the ABC genes were divided into eight subfamilies, including 3ABCA, 31ABCB, 14ABCC, 2ABCD, 1ABCE, 7ABCF, 46ABCG and 10 ABCI. Gene expressional profiling analysis revealed the tissue-specific expression profiles of these ABC transporters, particularly the highly expressed transporters in the roots of S. miltiorrhiza, which might be involved in transporting bioactive compounds of this medicinal plant. Notably, 18 genes that were highly expressed in the roots of S. miltiorrhiza were selected and verified by quantitative reverse transcription polymerase chain reaction to determine the co-expression profiling of these candidate genes with the key enzyme genes involved in the tanshinone and salvianolic acid biosynthetic pathways. Finally, three ABC genes (SMil_00020022, SMil_00010949, SMil_00027268) and one gene (SMil_00016361) might be involved in tanshinone and salvianolic acid transport in cells, respectively. In addition, the biological functions of S. miltiorrhiza ABC transporters were predicted on the basis of the phylogenetic analysis and expressional profile exploration, including the transportation of lipids, hormones, ions and primary metabolites.Conclusions: Our systematic analyses on the ABC transporters in S. miltiorrhiza provided information on ABC proteins for the first time and revealed the candidate transporters involved in the bioactive compound transportation of this medicinal plant. The genome-wide identification, transcriptome profile analysis and their phylogenetic relationships would provide a new perspective on the function of ABC transporters in S. miltiorrhiza.