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AA15 lytic polysaccharide monooxygenase is required for efficient chitinous cuticle turnover during insect molting.


ABSTRACT: Microbial lytic polysaccharide monooxygenases (LPMOs) catalyze the oxidative cleavage of crystalline polysaccharides including chitin and cellulose. The discovery of a large assortment of LPMO-like proteins widely distributed in insect genomes suggests that they could be involved in assisting chitin degradation in the exoskeleton, tracheae and peritrophic matrix during development. However, the physiological functions of insect LPMO-like proteins are still undetermined. To investigate the functions of insect LPMO15 subgroup I-like proteins (LPMO15-1s), two evolutionarily distant species, Tribolium castaneum and Locusta migratoria, were chosen. Depletion by RNAi of T. castaneum TcLPMO15-1 caused molting arrest at all developmental stages, whereas depletion of the L. migratoria LmLPMO15-1, prevented only adult eclosion. In both species, LPMO15-1-deficient animals were unable to shed their exuviae and died. TEM analysis revealed failure of turnover of the chitinous cuticle, which is critical for completion of molting. Purified recombinant LPMO15-1-like protein from Ostrinia furnacalis (rOfLPMO15-1) exhibited oxidative cleavage activity and substrate preference for chitin. These results reveal the physiological importance of catalytically active LPMO15-1-like proteins from distant insect species and provide new insight into the enzymatic mechanism of cuticular chitin turnover during molting.

SUBMITTER: Qu M 

PROVIDER: S-EPMC9156745 | biostudies-literature | 2022 May

REPOSITORIES: biostudies-literature

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AA15 lytic polysaccharide monooxygenase is required for efficient chitinous cuticle turnover during insect molting.

Qu Mingbo M   Guo Xiaoxi X   Tian Shuang S   Yang Qing Q   Kim Myeongjin M   Mun Seulgi S   Noh Mi Young MY   Kramer Karl J KJ   Muthukrishnan Subbaratnam S   Arakane Yasuyuki Y  

Communications biology 20220531 1


Microbial lytic polysaccharide monooxygenases (LPMOs) catalyze the oxidative cleavage of crystalline polysaccharides including chitin and cellulose. The discovery of a large assortment of LPMO-like proteins widely distributed in insect genomes suggests that they could be involved in assisting chitin degradation in the exoskeleton, tracheae and peritrophic matrix during development. However, the physiological functions of insect LPMO-like proteins are still undetermined. To investigate the functi  ...[more]

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