LAUSR

Abstract Antifreeze proteins (AFPs) are biological cryoprotectants with unique properties that play a crucial role in regulating the molecular mechanisms governing cold resistance in insects. To identify and characterize Apis cerana cerana AFP (AcerAFP), we cloned the full-length cDNA of AcerAFP and examined its expression patterns in A. cerana cerana. A nucleotide alignment analysis showed that the entire coding region of AcerAFP is 1095 bp and encodes a polypeptide of 365 amino acids. The amino acid sequence of this protein exhibits 63–96% homology with AFP homologs from other hymenopterans. α-helices form the main secondary and tertiary structures of AcerAFP, which is similar to the molecular structure of fish AFP type-I. The expression profiles of AcerAFP revealed that expression was tissue, sex, and developmentally specific. In response to cold stress, the mRNA and protein expression of AcerAFP were both induced by low temperatures, and were also related to the concentrations of several cryoprotectants, including glucose, glycerin, glutamic acid, cysteine, histidine, alanine, and methionine. In addition, we found that the knockdown of AcerAFP by RNA interference remarkably increased the total freezing temperature of hemolymph in A. cerana cerana, where levels of AcerAFP mRNA were correlated with the expression of most antifreeze-related proteins. Taken together, these results suggest that AcerAFP plays an essential role as a biological cryoprotectant in honeybees, and is in turn regulated by small cryoprotectants and antifreeze-related proteins.