karmoisin and cardinal ortholog genes participate in the ommochrome synthesis of Nilaparvata lugens (Hemiptera: Delphacidae)

Ommochrome is the major source for eye coloration of all insect species so far examined. Phenoxazinone synthetase (PHS) has always been regarded as the terminal step enzyme for ommochrome formation, which is encoded by cardinal or karmoisin genes. Our previous study indicated that the karmoisin orth...

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Bibliographic Details
Published in:Insect science 2019-02, Vol.26 (1), p.35-43
Main Authors: Liu, Shu‐Hua, Luo, Ju, Yang, Bao‐Jun, Wang, Ai‐Ying, Tang, Jian
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Animals
cardinal
Coloration
Complementary DNA
Compound eye
Deoxyribonucleic acid
DNA
Double-stranded RNA
eye color
Gene expression
Genes
Genes, Insect
Haem
Hemiptera - genetics
Hemiptera - metabolism
Injection
Insects
karmoisin
Nilaparvata lugens
Ocelli
ommochrome
Peroxidase
Phenothiazines - metabolism
Phenotypes
phenoxazinone synthetase
Pigmentation
Pigmentation - genetics
Polymerase chain reaction
Ribonucleic acid
RNA
RNA Interference
RNA-mediated interference
Sequence Analysis, DNA
Synthesis
Transcription
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Summary:Ommochrome is the major source for eye coloration of all insect species so far examined. Phenoxazinone synthetase (PHS) has always been regarded as the terminal step enzyme for ommochrome formation, which is encoded by cardinal or karmoisin genes. Our previous study indicated that the karmoisin ortholog gene (Nl‐karmoisin) product in the brown planthopper (BPH) was a monocarboxylate transporter, while not a PHS. Here, based on full‐length complementary DNA, the cardinal ortholog gene in BPH (Nl‐cardinal) product was predicted to be a haem peroxidase rather than a PHS. We suggest for the first time that neither karmoisin nor cardinal encodes the PHS, but whether PHS participates in BPH eye pigmentation needs further research. Nymphal RNA interference (RNAi) experiments showed that knockdown Nl‐cardinal transcript led the BPH ocelli and compound eye to color change from brown to red, while knockdown Nl‐karmoisin only made the ocelli present the red phenotype. Notably, not only the Nl‐cardinal transcript, dscd injection (Nl‐cardinal targeting double‐stranded DNA (dsRNA)) also significantly reduced the Nl‐karmoisin transcript by 33.7%, while dska (Nl‐karmoisin targeting dsRNA) injection did not significantly change the Nl‐cardinal transcript. Considering the above RNAi and quantitative real‐time polymerase chain reaction results, we propose that Nl‐cardinal plays a more important role in ommochrome synthesis than Nl‐karmoisin, and it may be an upstream gene of Nl‐karmoisin. The present study suggested that both karmoisin and cardinal ortholog genes play a role in ommochrome synthesis in a hemimetabolous insect.
ISSN:1672-9609
1744-7917
DOI:10.1111/1744-7917.12501