Identification of protein related to dietary vitamin B 3 deficiency in Mediterranean fruit fly larvae

Abstract Mediterranean fruit fly (medfly), Ceratitis capitata , is among the most destructive agricultural pest. The sterile insect technique (SIT) can effectively control medfly populations. To rear healthy medflies for the purpose of SIT, it is essential to supplement B vitamins in the diet. However, the function of the dietary B vitamins in C. capitata larvae is not known. With the microscopic analysis, several organs in the head were examined and the spiracle formation and sensory organs were normally formed between the niacin‐supplied and niacin‐absent groups. However, formation of the ocular depression was differently developed between the two groups, although the hypostomal sclerite was formed properly. These results signify that niacin deficiency maybe interrupt development of medfly larvae ocular depression. Proteomic analyses using LC MS/MS detected a total of 1845 proteins in two flies. A total of 607 of the 1845 proteins were overexpressed and one third (598 proteins) were downexpressed in the niacin‐deficient larvae, while about one third were similarly expressed. Overexpressed proteins in the niacin‐deficient larvae included ryanodine receptor 44 F, intergrin‐PS, spalt‐major homeotic protein, and chiffon protein. One of important overexpressed proteins was optomotor‐blind protein in relation to wing development in the niacin‐deficient medfly larvae.