Nilaparvata lugens

can use glutamine and other raw materials for the synthesis of essential amino acids, so as to supplement the BPH with amino acids that are missing i…

Acinetobacter can effectively degrade cellulose and harmful substances such as polystyrene and phenol.It can help the short-winged BPH to improve its…

Candida can provide amino acids, sterols and other substances for the host and can produce a variety of detoxification enzymes to make the BPHs immun…

Serratia may be related to the virulence variation of BPHs. It is speculated that the rich Serratia in the gut of the long-winged BPH can help it ada…

BsNLG8 significantly inhibited the growth of phytopathogenic fungi and also demonstrated the ability to produce siderophores, which explains its anta…

Transinfected planthopper lines acquired the insecticide sensitivity trait, with associated downregulation of the P450 xenobiotic detoxification syst…

ATP phosphoribosyltransferase from symbiont Entomomyces delphacidicola invovled in histidine biosynthesis of Nilaparvata lugens

ATP phosphoribosyltransferase from symbiont Entomomyces delphacidicola invovled in histidine biosynthesis of Nilaparvata lugens

a facultative endosymbiont of Nilaparvata lugens, potential role to synthesize B vitamins for the host

orchestrate host detoxification metabolism via the CncC pathway to promote host insecticide resistance

reduces bacterial species richness and reshapes bacterial community structure in Nilaparvata lugens

enhances expression of P450 NlCYP4CE1 in Nilaparvata lugens in response to imidacloprid stress

immune gene Defensin A contribute to the resistance against Nicotine-induced stress in host

Arsenophonus strain (S-type) negatively affected the insecticide resistance of the host

it has been revealed to play an important role in amino acid biosynthesis for N. lugens

with the S-type Arsenophonus significantly decreased host insecticide resistance

Pseudomonas sp. composition and abundance correlated with BPH survivability

supplement biotin and riboflavin to enhance reproduction in planthoppers

enhances expression of NlCYP4CE1 in response to imidacloprid stress

supporting sterol biosynthesis and nitrogen recycling for the host

might be correlated with virulence variation of brown planthopper

might be correlated with virulence variation of brown planthopper

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