Laccase, a member of a group of proteins collectively known as multicopper oxidases, is hypothesized to play an important role in insect cuticle sclerotization by oxidizing catechols in the cuticle to their corresponding quinones, which then catalyze protein cross-linking reactions. Laccase 2 has been proved as the gene required for beetle cuticle tanning through RNA interference (RNAi) experiments on red flour beetle Tribolium castaneum. The pine sawyer beetle, Monochamus alternatus (Coleoptero: Cerambycidae) is the insect serving as a major vector of the pinewood nematode, Bursaphelenchus xylophilus, which is the causative agent for pine wilt disease. The cDNA of MaLac2 was cloned from the insect in this study. The conceptual amino-acid sequence deduced was much conserved with other known insect laccases, particularly with the enzyme of Tribolium castaneum. Injection in hemolymph of pine sawyer larva of dsRNA targeting the laccase 2 mRNA leads to important alterations of the tanning, hardening and sclerotization of the pupal and adult cuticles. Defaults appear in a dose-dependent manner and high loads of dsRNA are lethal. The decrease of the endogenous laccase 2 mRNA affects the procuticle which is thinner and without the characteristic piling up of successive layers. The observations reinforce the role of laccase 2 as an essential phenoloxidase for making cuticle.
We tested the effects of four bacterial strains carried on the surface of the pine wood nematode (PWN), Bursaphelenchus xylophilus, on egg hatch, development rate and egg production. Strains GcM5-1A (Pseudomonas fluorescens) and ZpB1-2A (P. putida), were strong phytotoxin producers, while strains JnB1B (Pantoea sp.) and AcB1C (Peptostreptococcus asaccharalyticus) did not produce phytotoxins. None of the strains had any effect on egg hatch. GcM5-1A and ZpB1-2A promoted egg production, developmental rate, body length and diameter growth in both male and female PWN, whereas JnB1B and AcB1C had no such effects on the nematode. Indeed, the latter two strains completely inhibited egg production of the nematode. The results suggest that GcM5-1A and ZpB1-2A may provide PWN with food and/or essential nutrients for development and egg production. These results provide further evidence for our previous finding of a mutualistic symbiosis between the PWN and certain strains of bacteria carried by this nematode (Zhao et al., 2003.www.blackwell-synergy.com
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