Chitin deacetylases (CDAs) are chitin-modifying enzymes that deacetylate chitin to form chitosan. In insects, this modification may contribute to the affinity and/or cross-linking of chitin/chitosan-like polysaccharides for a variety of structural proteins that may lead to diverse mechanical properties of the cuticle. DmCDA1 (serpentine) and DmCDA2 (vermiform) from Drosophila melanogaster play roles in development and morphology of embryonic tracheal tubes. We previously reported the functional importance of TcCDA1 and TcCDA2 orthologs to DmCDA1 and DmCDA2 from Tribolium castaneum, in molting, morphology of cuticle, and movement of legs. In this study, we further analyze ultrastructural defects of the cuticles and leg joints in TcCDA1- and TcCDA2-deficient insects. Loss of function of TcCDA1 and TcCDA2 causes disorganized chitinous horizontal laminae and vertical pore canals of rigid adult cuticle (e.g. elytron). Both proteins are also required for laminal organization in soft cuticle (e.g. hindwing). Morphological analysis of TcCDA1- and TcCDA2A-deficient adult revealed that ruptured tendons between femur and tibia cause the defects in movement of the leg joint. This work was supported by NRF (NRF-2015R1A2A2A01006614).

• Seulgi Mun(Department of Applied Biology, Chonnam National University)
• Mi Young Noh(Department of Applied Biology, Chonnam National University)
• Yasuyuki Arakane(Department of Applied Biology, Chonnam National University)