Expression and function analysis of crustacyanin gene family involved in resistance to heavy metal stress and body color formation in Exopalaemon carinicauda.

Crustacyanin has the function of binding astaxanthin which is the best antioxidant, and plays an important role in the body color variation of crustaceans. To investigate the causes of body color variation of the ridgetail white prawn, Exopalaemon carinicauda, the present study obtained four subtypes of crustacyanin gene: C1, C2, A1, and A2. Based on fluorescence quantitative polymerase chain reaction, lipocalin‐C1 is mainly expressed in the eyestalk, lipocalin‐C2 is in the ventral nerve cord, and lipocalin‐A1 and lipocalin‐A2 are in subcutaneous adipose tissues. Under the inhibiting effect of Cd2+ stress, the expression of four subtypes first increases and then decreases within 24 h, and reaches the maximum at 6 or 12 h. RNA interference experiments showed a decrease in the expression of lipocalin genes in subcutaneous adipose tissue for each subtype, with the body color changing from transparent to red, and the dark red spots on the epidermis changing to bright red. Moreover, the blue protein in the subcutaneous adipose tissue largely disappeared, based on the light micrographs. In view of these findings, the crustacyanin gene appears to fulfill some function in the resistance to heavy metal stress and body color formation of E. carinicauda. Highlights: Four subtypes of the crustacyanin gene in E. carinicauda were cloned for the first time, which function were revealed to relate to the change of body color. The expression of crustacyanin gene involved in resistance to heavy metal stress. [ABSTRACT FROM AUTHOR]