Characterization and Mechanism Analysis of Sugar Transporter Protein Obtained from Monascus pilosus

Abstract

Sugar transporter protein family is very common among different organisms in nature and plays a key role in the transportation, absorption, and synthesis of secondary metabolites. To investigate the functional characteristics of sugar transporter proteins in Monascus pilosus, cDNA sequence of sugar transporter protein gene MpST collected from M. pilosus CICC 5045 was cloned in this research. Furthermore, bioinformatics methods and molecular docking techniques were applied to analyze MpST protein. The obtained results revealed that the coding region of MpST was 1677 bp in length, which coded 558 amino acids, and it was a stable protein. Phylogenetic tree analysis found a close relationship between MpST and two other proteins from M. purpureus (BDD61243.1 and TQB74099.1). Bioinformatics analyses indicated that this protein is a hydrophilic protein with 11 transmembrane domains and its functional domains were mainly consisted of the conserved domains of major facilitator superfamily (MFS) and sugar transporter proteins, suggesting that this protein belonged to MFS transporter protein family. Molecular docking results suggested that the receptor protein could spontaneously bind with high affinity to small molecular ligands such as galactose, raffinose, glucose, xylose, and maltose. From the above analyses, it was predicted that this protein might have good transport function for the above five sugars. This study lays the foundation for further in-depth research on the functions and applications of this protein.