Acta Entomologica Sinica

LWO/AC/cAMP/PKA signal pathway regulates cytochrome P450 gene expression and mediates deltamethrin resistance in Laodelphax striatellus (Hemiptera: Delphacidae)

ZHANG Yi-Ping, XU Sheng, WU Min

2025, 68(5): 541-554. doi:10.16380/j.kcxb.2025.05.001

Abstract ( 109 )

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【Aim】 Previous study found that the overexpression of CYP6AY3v2 and CYP439A1v3 in deltamethrin-resistant strain JH-del of Laodelphax striatellus is the main mechanism of deltamethrin resistance of L. striatellus. The aim of this study is to clarify the mechanism of up-regulated expression of CYP6AY3v2 and CYP439A1v3 in L. striatellus and to reveal the regulatory signal pathways. 【Methods】 The expression levels of long wavelength-sensitive opsin (LOW) gene LWO of the G proteincoupled receptor (GPCR) family A in the 4th instar nymphs of the deltamethrin-resistant strain JHdel and the sensitive strain JHS of L. striatellus were detected by quantitative PCR. RNAi and Bupivacaine HCL were used to interfere with LWO/AC/cAMP/PKA signal pathway genes LWO, AC-2, AC-3, PKA-1, PKA-2 and PKA-3 of the 3rd instar nymphs of L. striatellus strain JH-del, and bioassay was used to detect the change in the sensitivity of L. striatellus to deltamethrin so as to verify that LWO-activated downstream AC/cAMP/PKA/CYP450s signal pathway genes to mediate deltamethrin resistance of L. striatellus by increasing its own expression level. Transgenic Drosophila combined with GAL4/UAS system and insect baculovirus expression system were used to heterogeneously express the L. striatellus LWOi n the 3-day-old female adults of Drosophila melanogaster and Sf9 cells of Spodoptera frugiperda to verify the function of LWO. 【Results】 The relative expression level of LWO in the deltamethrin-resistant L. striatellus strain JH-del was 1.54-fold as high as that in the sensitive strain JHS. When any node of the LWO/AC/cAMP/PKA signal pathway in the 3rd instar nymph of L. striatellus strain JH-del was interfered by feeding dsRNAs of target genes, the expression levels of CYP6AY3v2 and CYP439A1v3 that metabolize deltamethrin downstream of this signal pathway were significantly decreased, and the sensitivity of the 3rd instar nymphs of strain JH-del of L. striatellus was restored as compared with that in the control group (fed with dsGFP). After heterologous expression of LWO in D. melanogaster and Sf9 cells, the resistance of D. melanogaster and Sf9 cells to deltamethrin increased significantly, and the increase of deltamethrin resistance was also mediated by LWO/AC/cAMP/PKA/CYP450s signal pathway of L. striatellus. 【Conclusion】 LWO receptor activates downstream AC/cAMP/PKA/CYP450s signal pathway by increasing its own expression level, which mediates deltamethrin resistance of L. striatellus. The results provide a theoretical basis for resistance management of L. striatellus and screening of new insecticide targets.

Functional analyses of the salivary ferritin SaFer1 in Sitobion avenae (Hemiptera: Aphididae)

HU Ge-Yang, LIU De-Guang

2025, 68(5): 555-568. doi:10.16380/j.kcxb.2025.05.002

Abstract ( 30 )

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【Aim】 The aim of this study is to explore the function of the salivary ferritin SaFer1 of Sitobion avenae in the processes of feeding and clarify the effects of SaFer1 on the aphid-plant interactions. 【Methods】 Based on the salivary gland transcriptome data of S. avenae, the full-length cDNA sequence of SaFer1 from S. avenae was cloned, and bioinformatically analyzed. RT-qPCR was used to determine the expression levels of SaFer1 in different developmental stages (1st－4th instar nymphs and wingless adults), different tissues of the 1-day-old wingless adults (head, thorax, abdomen, salivary gland, midgut and embryo), different wing morphs (wingless and winged adults), and the 1st－4th instar nymphs and wingless adults fed on different diets (wheat and artificial diet). With the transient expression system of Nicotiana benthamiana, Agrobacterium tumefaciens was used to mediate the expression of SaFer1 and Bcl-2 associated X protein (BAX) in N. benthamiana leaves, the symptoms of leaf necrosis were observed and used to analyze the functions of SaFer1, and subcellular localization of SaFer1 was observed with the laser scanning confocal microscopy. The yeast secretory system was used to validate the function of the signal peptide of SaFer1. Silencing of SaFer1 in wingless adults was utilized to determine the survival rate and average daily number of aphids produced, and the feeding behavior indexes of the wingless adults on the wheat were detected using the insect electrical penetration graph (EPG) technique. The expression levels of defense-related genes (ROS-related genes NOX and SOD, salicylic acid pathway-related gene PAL, and jasmonic acid pathway-related genes AOS and FAD7) in wheat leaves fed by S. avenae for 3 d after RNAi of SaFer1 were determined by RT-qPCR. 【Results】 The full-length cDNA sequence of SaFer1 (GenBank accession no.: PP760384) of S. avenae was cloned. The cDNA length of SaFer1 is 1 212 bp, and the ORF length is 675 bp, encoding 224 amino acid residues, with the relative molecular mass of 25.5 kD and the isoelectric point of 6.20. The N-terminus of SaFer1 has a signal peptide. SaFer1 had the highest amino acid sequence identity (98.61%) with the unnamed protein (GenBank accession no.: CAI6358877.1) of Macrosiphum euphorbiae. RT-qPCR results showed that SaFer1 was expressed at all developmental stages of S. avenae and is the constitutive expression gene, and was highly expressed in the midgut and salivary glands of the wingless adults. SaFer1 was able to inhibit the leaf necrosis of N. benthamiana induced by BAX. SaFer1 was localized in the leaf cell membrane and nucleus of N. benthamiana. The signal peptide of SaFer1 had secretory activities. Compared to the control group (dsGFP), silencing of SaFer1 caused no significant changes in the survival rates, but resulted in significant decrease in the average daily number of aphids produced by S. avenae. Silencing of SaFer1 resulted in a significant reduction in the duration of E1 waveform, and a significant increase in the duration of waveforms F and G during the feeding process compared to the control group (dsGFP). Silencing of SaFer1 also led to significant upregulation of the expression levels of NOX, SOD, PAL, AOS and FAD7 in wheat leaves compared to the control group (dsGFP). 【Conclusion】 The salivary ferritin SaFer1 of S. avenae was found to be an effector protein, which could help the aphid to feed by inhibiting the host defense responses, enhance the aphid’s fitness, and play vital roles in aphid-host plant interactions.

spalt major is downstream of Wg/Wnt and Dpp signaling pathways to regulate wing differentiation in the pea aphid, Acyrthosiphon pisum (Hemiptera: Aphididae)

CHEN Jin-Hua, XIAO He, ZONG Xin, SHEN Jie, WANG Dan

2025, 68(5): 569-575. doi:10.16380/j.kcxb.2025.05.003

Abstract ( 68 )

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【Aim】 The aim of this study is to investigate the role of spalt major, a regulator of wing development, in wing differentiation of the pea aphid, Acyrthosiphon pisum, and to further reveal the molecular mechanism of non-genetic wing polyphenism in insects. 【Methods】 A high ratio of winged offspring was induced by density in the parthenogenetic wingless A. pisum under the laboratory conditions and the expression level of Apsal was detected by qRT-PCR. dsRNAs were synthesized, including dsApsal targeting spalt major gene (Apsal), dsApWnt2 targeting Wnt-2 (ApWnt2) and dsApdpp targeting decapentaplegic (Apdpp) in A. pisum. ApWnt2 and Apdpp are upstream of Apsal in the Wg/Wnt and Dpp pathways, respectively. Nanocarrier-mediated body wall penetration was used to interfere with Apsal, ApWnt2 and Apdpp in wingless female adults and their newly born nymphs, and then the ratio of winged morph was recorded, and the gene expression levels were analyzed by qRT-PCR. 【Results】 More than 80% of winged offspring of A. pisum could be stably induced by high density treatment on the female adults. The expression level of Apsal, a key gene in wing development, was increased in the winged offspring aphid induced by density as compared with that in the wingless solitarily bred aphid. Interfering the expression of Apsal by dsApsal resulted in a significant decrease of the ratio of winged morph compared with the control group (dseGFP). When the expression of upstream gene ApWnt2 or Apdpp was interfered, the expression level of Apsal decreased as compared with that in the control group (dseGFP). 【Conclusion】 Apsal regulates wing differentiation of A. pisum and is activated by both Wg/Wnt and Dpp signaling pathways. This study further reveals the molecular mechanism of aphid wing differentiation, providing theoretical and technical bases for RNAi-based pest management to prevent aphids from migrating to new hosts.

Cloning and prokaryotic expression of PxylPBAN and its RNAi effects on the expression of genes in the juvenile hormone and sex pheromone pathways in the diamondback moth, Plutella xylostella (Lepidoptera: Plutellidae)

ZHENG Yue-Qin, ZHU Xiao-Wen, TIAN Hou-Jun, LIN Shuo, LIU Qian-Xia, WEI Hui

2025, 68(5): 576-584. doi:10.16380/j.kcxb.2025.05.004

Abstract ( 74 )

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【Aim】 This study focuses on the cloning and prokaryotic expression of the sex pheromone biosynthesis activating neuropeptide gene PxylPBAN in the diamondback moth, Plutella xylostella. Additionally, the effects of RNAi-mediated PxylPBAN silencing on the expression of genes involved in both the juvenile hormone pathway and the sex pheromone synthesis pathway were detected to explore the role of PxylPBAN in sex pheromone synthesis. 【Methods】 The full-length CDS of PxylPBAN in P. xylostella was cloned using RT-PCR. PxylPBAN was expressed in a prokaryotic expression system and subsequently purified. RNAi was conducted by injecting dsPxylPBAN into female pupae of P. xylostella, followed by the RT-qPCR verification of the expression levels of PxylPBAN, juvenile hormone pathway genes PxylJHAMT, PxylnJHBP, PxylhJHBP and PxylMet, as well as the sex pheromone synthesis pathway genes PxylACC and PxylFAR6 at 24, 48 and 72 h post injection. 【Results】 The cloning process successfully generated a 582 bp full-length CDS for PxylPBAN (GenBank accession number: LOC105391112), of P. xylostella, encoding a 193 amino acid protein with the estimated molecular weight of approximately 21.85 kD. The recombinant PxylPBAN protein was produced through prokaryotic expression. RNAi result revealed a significant down-regulation in expression level of PxylPBAN following the injection of dsPxylPBAN compared to the control group injected with dsEGFP of P. xylostella, with the most pronounced decrease observed at 24 h post injection. Additionally, the expression levels of PxylJHAMT, PxylnJHBP, PxylhJHBP, PxylMet, PxylACC and PxylFAR6 of P. xylostella in the dsPxylPBAN-injected group were significantly reduced as compared to those in the control group. 【Conclusion】 This study successfully obtained the recombinant PxylPBAN protein and identified PxylPBAN as a key gene in the juvenile hormone pathway and sex pheromone synthesis pathway in P. xylostella. These findings establish a theoretical basis for understanding the regulatory relationship between PxylPBAN and juvenile hormones in sex pheromone biosynthesis in P. xylostella.

Transcriptomic analysis of the pupal brain-suboesophageal ganglion complex after knocking out the thermal sensitive transient receptor potential ankyrin 1 (BmTRPA1) in Bombyx mori

BAI Xin-Yu, FENG Jia-Wei, ZHANG Ming-Wei, BAO Mei, XING Dong-Xu, YANG Wan-Ying

2025, 68(5): 585-595. doi:10.16380/j.kcxb.2025.05.005

Abstract ( 25 )

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【Aim】 The thermal sensitive transient receptor potential ankyrin 1 (TRPA1) is activated when the eggs of biovoltine Bombyx mori are stimulated under 25 ℃, which may then activate an unknown signaling pathway related to the release of diapause hormone (DH). The aim of this study is to investigate the molecular mechanism of BmTRPA1 regulating DH secretion and the relationship between BmTRPA1 and GABAergic signaling pathway in B. mori. 【Methods】 CRISPR/Cas9 was used to knockout BmTRPA1 in B. mori stimulated under 25 ℃. Transcriptome sequencing was used to screen the differentially expressed genes in the brain-suboesophageal ganglion (Br-SG) complex between B. mori wild type (WT) and BmTRPA1 mutant type BmTRPA1^-/-on the day-3 of the pupal stage. GO classification and KEGG functional enrichment analysis were performed for the differentially expressed genes and specifically expressed genes. The relative expression levels of six differentialy expressed genes, 10 key genes in GABAergic signaling pathway and neuropeptide gene K5 were detected by qRT-PCR. 【Results】 A total of 13 039 genes were expressed in the Br-SG complex of WT and 12 937 genes were expressed in the Br-SG complex of BmTRPA1^-/-, among them 12 484 genes were co-expressed in the Br-SG complex of WT and BmTRPA1^-/-, 555 genes were specifically expressed in the Br-SG complex of WT and 453 genes were specifically expressed in the Br-SG complex of BmTRPA1^-/-. Compared with Br-SG complex of WT, 32 genes in the Br-SG complex of BmTRPA1^-/- were up-regulated and 13 genes in the Br-SG complex of BmTRPA1^-/- were down-regulated. These differentially expressed genes were mainly enriched in key life processes such as positive feedback regulation, metabolism, response to stimulus, and cell regulation. The differentially expressed protein GAT, which is enriched in the process of protein transport and endocrine, belongs to the plasma membrane GABA transporter and is a key protein in regulating the release of DH from B. mori. qRT-PCR result showed that the relative expression levels of GAT and K5 in the Br-SG complex of BmTRPA1^-/-were significantly down-regulated as compared with those in the Br-SG complex of WT. 【Conclusion】 This omics level study showed that the knockout of TRPA1 can reduce the expression of GAT, thereby regulating GABAergic signaling pathway and reducing DH release. The results provide target proteins and data references for further exploration of molecular regulatory mechanisms of diapause induced by B. mori in response to ambient temperature.

Interactions and distribution characteristics of Candidatus Liberibacter asiaticus and symbiotic bacteria in Diaphorina citri (Hemiptera: Psyllidae) across different geographic distributions

ZHOU Ling-Fei, ZHONG Ming, LIU Ze-Min, GUO Guo-Sen, XIE Bing-Bing, YE Ling-Yun, WU Lan, DUAN Xing-Zhi

2025, 68(5): 596-606. doi:10.16380/j.kcxb.2025.05.006

Abstract ( 26 )

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【Aim】 To explore the occurrence and interactions of Candidatus Liberibacter asiaticus (CLas) and the main symbiotic bacteria Wolbachia, Carsonella and Profftella in the Asian citrus psyllid, Diaphorina citri across geographic distributions. 【Methods】 During August 2022-August 2023, we collected samples from 20 populations of D. citri across China’s main climatic regions where this species was prevalent. Nested PCR was employed to assess the Huanglongbing (HLB) infection rates of female adults in each population. qPCR was used to analyze the relative abundance of CLas and three symbiotic bacteria (Wolbachia, Carsonella and Profftella) from five populations with relatively high HLB infection rates. Additionally, we screened the differentially expressed genes in the transcriptomes of adult D. citri infected and uninfected with HLB, followed by KEGG pathway enrichment analysis. 【Results】 Female adults of Lingshan and Rongjiang populations of D. citri had the highest HLB infection rates, both reaching 66.67%, and female adults from seven populations (Qiongzhong, Chengmai, Huaning, Yongchun, Hengshan, Mayang, Fengcheng) were not infected with HLB. Altitude significantly influenced the HLB infection rate of D. citri. Precipitation significantly affected the relative abundance of CLas. Latitude, altitude and temperature significantly impacted the relative abundance of specific symbiotic bacteria. HLB infection also influenced the response of symbiotic bacteria to above these environmental factors. Correlation analysis indicated that HLB infection impacted the correlation of relative abundance among symbiotic bacteria of D. citri. Transcriptome analysis revealed that the differentially expressed genes in HLB-infected D. citri were primarily enriched in pathways related to peroxisome, carbon metabolism, and so on, which may be the cause of changes in the interactions of their symbiotic bacteria. 【Conclusion】 This study confirmed the impact of environmental factors on CLas and the main symbiotic bacteria in D. citri. HLB infection of D. citri altered the response of symbiotic bacteria to environmental factors and their interactions, and these alterations were likely closely associated with the regulation of gene expression in the HLB-infected D. citri, providing important references for developing geographically informed integrated management strategies against HLB.

Effects of wMelPop infection on the gut bacteria in male Drosophila melanogaster

ZHONG Zi-Qian, MA Qian, LI Dong, WANG Jia-Lin, WANG Yu-Feng

2025, 68(5): 607-618. doi:10.16380/j.kcxb.2025.05.007

Abstract ( 23 )

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【Aim】 Wolbachia is a genus of maternally inherited Gram-negative bacteria, which is one of the most common symbiotic bacteria in insects and can affect host reproduction and behavior in various ways. But the mechanisms of Wolbachia’s influences on hosts are still unclear. This study aims to characterize the effects of the infection of wMelPop, a high toxic Wolbachia strain, on the gut bacteria in male Drosophila melanogaster. 【Methods】 The whole guts of male adults of wMelPop-infected (Pop+) and uninfected (Pop-) D. melanogaster were dissected, from which the total DNA was extracted, respectively. The V3-V4 regions of the 16S rDNA genes of the gut bacteria were sequenced using Illumina NovaSeq platform. The composition, abundance, and α-diversity of the gut bacteria of Pop+ and Pop- were analyzed and compared, and the validity of high-throughput sequencing data of six gut microbial species from three genera with significant differences in expression level was confirmed by qPCR. 【Results】 α-Diversity analysis indicated that wMelPop infection resulted in increased abundance, but decreased diversity of gut bacteria in male D. melanogaster. In the gut of Pop-， the dominant bacterial genera were Acinetobacter, Pseudomonas, Acetobacter and Halomonas. In the gut of Pop+, the relative abundance of Pseudomonas was significantly decreased, while that of Acetobacter and Lactobacillus was significantly increased as compared to those of Pop-. qPCR analysis result revealed that the expression level of the 16S rDNA gene of the total gut bacteria of Pop+ was extremely significantly upregulated as compared to that of Pop-. The expression level of the 16S rDNA gene of A. pomorum in the gut of Pop+ was downregulated to 0.7-fold of that of Pop-, and that of A. tropicalis in the gut of Pop+ was upregulated by about 3 700-fold of that of Pop-. The expression levels of the 16S rDNA genes of L. frutivorans, L. plantarum and L. brevis in the gut of Pop+ were significantly higher than those of Pop-, with that of L. frutivorans showing the highest upregulation level of about 23 000-fold of that of Pop- and that of P. alkaligenes showing downregulation level of about 0.6-fold of that of Pop-. These results were consistent with the trends of the 16S rDNA sequencing results.【Conclusion】The infection of wMelPop significantly affects the relative abundance of gut bacteria in male D. melanogaster, with a significant increase in gut microbiota load of Acetobacter and Lactobacillus. This may be at least one of the mechanisms by which wMelPop infection affects the reproduction and behavior of insect hosts.

Resistance monitoring of the field populations of Frankliniella intonsa (Thysanoptera: Thripidae) to six insecticides in four major cotton growing areas of Xinjiang, Northwest China

WANG Yan-Ru, CHANG Jing-Bao, XIANG Hao, CUI Jin-Jie, MA De-Ying, FAN Zong-Fang, LU Wei

2025, 68(5): 619-625. doi:10.16380/j.kcxb.2025.05.008

Abstract ( 27 )

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【Aim】 In order to ascertain the resistance status of Frankliniella intonsa to six commonly used insecticides (imidacloprid, thiamethoxam, sulfoxaflor, afidopyropen, flupyradifurone and cyantraniliprole) in major cotton growing areas of Xinjiang, Northwest China. 【Methods】F. intonsa provided by Yunnan Agricultural University was used as the susceptible strain. The median lethal concentration (LC₅₀) values of the above six insecticides against the adults of the field populations of F. intonsa from Awati County of Aksu, Zepu County of Kashgar, Heshlik Township of Korla and Manas County of Changji were determined by dipping method. The resistance levels of the four populations to the six insecticides were evaluated based on the LC₅₀ value. 【Results】 In addition to remaining sensitive to cyantraniliprole, the four field populations of F. intonsa in Xinjiang developed different degrees of resistance to the other five insecticides. Among them, Korla population had the highest level of resistance to imidacloprid, reaching the moderate resistance level, and the resistance ratio (RR) was 32.6. The Zepu population had the highest resistance level to flupyradifurone, showing a medium resistance level, and the RR was 15.7. The resistance levels of the four field populations of F. intonsa to thiamethoxam, sulfoxaflor and afidopyropen were low and moderate (5.0<RR≤40.0). 【Conclusion】 Cyantraniliprole can be used as a recommended insecticide to control F. intonsa in the field, and suggested to be alternately used with other insecticides with different mechanisms of action to delay the development of insecticide resistance in F. intonsa.

Screening of the SNP sites and genes associated with deltamethrin resistance in the Wuxi strain of Anopheles sinensis (Diptera: Culicidae) based on bulked segregant analysis

ZHANG Yu-Juan, SUN Ya-Wen, MENG Chen, YE Ming-Xin, HE Dong-Lin, YAN Zhen-Tian, CHEN Bin

2025, 68(5): 626-637. doi:10.16380/j.kcxb.2025.05.009

Abstract ( 19 )

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【Aim】To explore the single nucleotide polymorphism (SNP) sites and genes related to the resistance to deltamethrin in the Wuxi strain of Anopheles sinensis. 【Methods】The F2 population created by crossing the deltamethrin=resistant Wuxi strain (WX-LR) and the susceptible Wuxi strain (WX-LS) of An. sinensis was treated with 0.04% deltamethrin to calculate the knockdown time. The mixed pools of extremely resistant individuals and extremely susceptible individuals were subjected to whole-genome resequencing by bulked segregant analysis (BSA) combined with whole-genome sequencing to identify SNP sites associated with deltamethrin resistance. SNP-index (SNP genotype frequency) calculation and candidate region mapping were used to screen for quantitative trait loci (QTL) associated with the resistance to deltamethrin, followed by GO functional annotation and KEGG pathway enrichment of candidate QTL genes. The key genes associated with the resistance to deltamethrin were identified.【Results】The SNP loci associated with the resistance to deltamethrin were mainly concentrated on Chr. 2 and Chr. 3 in An. sinensis. The ΔSNP-indexes with a 99% confidence interval was entirely mapped to Chr. 2, including 12 QTLs and 672 annotated genes related to the resistance to deltamethrin. Twelve key genes associated with the resistance to deltamethrin were screened, including six trypsin genes, four zinc finger protein genes, OAT gene, and CYP4J5 gene, which are involved in the insecticide metabolic detoxification enzymes and organic anion transport.【Conclusion】Based on BSA sequencing (BSA-seq), genes directly associated with the resistance in the Wuxi strain of An. sinensis to deltamethrin were identified, providing a foundation for further understanding the molecular mechanisms of the resistance in An. sinensis to deltamethrin.

Mating behavior and circadian rhythm of adult Cacopsylla chinensis (Hemiptera: Psyllidae)

YAO Wen-Ying, XU Jing-Yi, WU Meng-Chu, XU Xiang-Li

2025, 68(5): 638-646. doi:10.16380/j.kcxb.2025.05.010

Abstract ( 24 )

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【Aim】 The aim of this study is to clarify the mating behavior and circadian rhythm of adults of the pear psyllid, Cocapsylla chinensis, in order to provide a theoretical foundation for understanding the hermaphroditic communication mechanisms and trapping technology of this insect. 【Methods】 Based on investigating the mating behavior of winterform adults of C. chinensis in pear orchard in Yangling, Shaanxi, Northwest China, the mating behaviors, including numbers of matings, and circadian rhythms of mating duration, of single-pair summerform and winterform adults of C. chinensis were examined under controlled laboratory conditions of temperature (25±1) ℃ and photoperiod 14L∶10D. 【Results】 During the mating of C. chinensis, males actively court females, with their bodies aligned or overlapping in the same direction. Mating mainly occurs during the photophase, while C. chinensis individuals rest on host plants during the scotophase, exhibiting a distinct circadian rhythm in mating behavior. During the photophase, single-pair summerform adults peaked in mating on the 3rd day after emergence, with 94.0% of the observed individuals exhibiting mating behavior by the 7th day after emergence. The newly emerged winterform adults, when placed under the conditions of temperature (25±1) ℃ and photoperiod 14L∶10D, exhibited mating behavior starting on the 5th day after emergence, peaking between the 7th and 9th day after emergence, with 84.0% of the observed individuals exhibiting mating behavior up to 9-day-old. The average numbers of matings of the summerform and winterform adults were 3.26±0.33 and 4.12±0.37, respectively. The average duration of a single mating event of the summerform and winterform adults was (20.32±1.25) and (48.36±1.38) min, respectively. While there was no significant difference in the number of matings between the two forms, the duration of mating of the winterform adults was significantly longer than that of the summerform adults. Analysis of number of matings and mating duration showed that the summerform adults predominantly mated 1-2 times and a single mating event lasted 10-30 min, accounting for 50.0% and 67.5%, respectively, whereas the winterform adults mated mostly 1-3 times and a single mating event lasted 30-60 min, accounting for 52.0% and 63.2%, respectively. 【Conclusion】 These results suggest that single-pair adults of C. chinensis engage in multiple mating events, exhibiting a circadian rhythm, and winterform adults mate more frequently and for longer duration under the same condition than summerform adults

Eclosion and reproductive behavior rhythms of Diaphania pyloalis (Lepidoptera: Pyralidae)

CAO Hong-Mei, HU Gui-Ping, WANG Jun-Wen, WEI Hong-Yi, CHEN Li-Hui, WANG Feng, ZENG Bing, CAI Xiang, HU Li-Chun, YU Qi-Jiang, SHUANG Qiao-Yun

2025, 68(5): 647-655. doi:10.16380/j.kcxb.2025.05.011

Abstract ( 17 )

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【Aim】The study aims to investigate the eclosion and reproductive behavior rhythms of Diaphania pyloalis, so as to provide a basis for the extraction and identification of sex pheromones, monitoring of population dynamics, gender communication mechanism and behavior regulation of this insect. 【Methods】The behavior rhythms of eclosion, courtship, mating and oviposition of D. pyloalis were recorded and analyzed by means of periodic continuous observation with single female adult or single pair of female and male adult timing under the conditions of light intensity 5 200 lx, temperature (25±1) ℃, relative humidity 85%±5% and photoperiod 14L∶10D. 【Results】 Under the conditions of light intensity 5 200 lx, temperature (25±1) ℃, relative humidity 85%±5% and photoperiod 14L∶10D, the eclosion rate of D. pyloalis was 91.30%, the eclosion period was about 6 d, and the peak of daily eclosion of female and male pupae was concentrated in the scotophase (2:00-6:00), the ratio of female to male pupae was 1.12∶1, and the male adult eclosion was about 0.5 d earlier than the female adult eclosion. The courtship behavior of female adults was concentrated within 3 d after eclosion, and the peak of courtship behavior was at 7-8 h in the scotophase. The courtship rate of the 2-day-old female adults was the highest (47.78%). The mating behavior of female and male adults began to appear at 1 h after entering the scotophase, and reached its peak at 7-8 h in the scotophase. The mating behavior was affected by the day-old age of adults, and the mating rate of the 2-day-old adults was the highest (53.33%). The number of eggs laid by the female adults within 1-3 d after mating accounted for more than 80% of the total number of eggs laid. 【Conclusion】The eclosion and reproductive behaviors of D. pyloalis adults have obvious circadian rhythms, which can provide a key time reference for the control of D. pyloalis, and also lay a foundation for the research and application of green control technology of D. pyloalis.

Effects of supplemental hormones and Myzus persicae (Hemiptera: Aphididae) supplied with peach leaf juice on the parasitization ability and growth and development-related enzymes of Aphidius gifuensis (Hymenoptera: Aphidiidae)

HE Jiao-Ping, HAN Meng, ZHOU Ting, LAI Yu-Fei, GU Gang, LAI Rong-Quan, ZHANG Bang

2025, 68(5): 656-666. doi:10.16380/j.kcxb.2025.05.012

Abstract ( 28 )

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【Aim】 The purpose of this study is to screen the best rejuvenation methods by determining and analyzing the effects of rejuvenation by supplementing different concentrations of hormones and Myzus persicae supplied with peach leaf juice on the parasitization ability, body size of offspring adults, and the contents and activities of the growth and development-related enzymes in the offspring adults of Aphidius gifuensis, so as to rejuvenate the degenerated A. gifuensis population and maintain the parasitization ability of A. gifuensis in a healthy state during artificial propagation. 【Methods】 A. gifuensis adults of the obviously degenerated population after being reared in laboratory for 10 generations were fed with different hormones (estradiol, methyltestosterone and cortisol) at different concentrations (0.32, 1.6, 8, 40 and 200 mg/L) for 24 h, the parasitism rate, body size of offspring adults, and the contents and activities of the growth and development-related enzymes including carboxylesterase (CarE), phenoloxidase (PO), superoxide dismutase (SOD) and trehalase in the offspring adults were determined. After 10 generations of indoor rearing, the degenerated and mated female adults of A.gifuensis were introduced into small insect cages containing tobacco plants infested with 100 nymphs of M. persicae at the 2nd-3rd instar (1∶100 ratio of female wasp to aphids). The tobacco leaves were sprayed evenly with peach leaf juice at different concentrations (dilution fold: 1, 10, 100, 1 000 and 10 000) and M. persicae nymphs were allowed to feed for 24 h. The parasitism rate, body size of offspring adults, and the contents and activities of CarE, PO, SOD and trehalase in the offspring adults of A. gifuensis were determined. 【Results】 In hormone rejuvenation, 1.6 mg/L methyltestosterone had the best rejuvenation effect. When A. gifuensis adults were fed with 1.6 mg/L methyltestosterone, the parasitism rate was 33.67%, which was increased by 14.34% as compared with that in the control group (fed with purified water and ethanol in a volume ratio of 1∶5), however, 1.6 mg/L methyltestosterone had no significant effect on the body size of A. gifuensis offspring adults. When A. gifuensis adults were fed with 1.6 mg/L estradiol, the hind tibial length of the offspring adults was increased by 22.25% as compared with that in the control group. When A. gifuensis adults were fed with 1.6 mg/L methyltestosterone, the CarE activity and the PO content in the offspring adults were the highest, which were increased by 41.00% and 40.81%, respectively, as compared with those in the control group. When A. gifuensis adults were fed with 1.6 mg/L cortisol, the SOD content in the offspring adults was the highest, which was increased by 48.92% as compared with that in the control group. Feeding different hormones had no significant effect on the trehalase content in the offspring adults of A. gifuensis. In M. persicae supplied with peach leaf juice rejuvenation, feeding M. persicae nymphs with different concentrations of peach leaf juice had no significant rejuvenation effect on the parasitism rate of A. gifuensis adults. However, the parasitism rates of A. gifuensis adults in various treatment groups in which M. persicae nymphs were fed with different concentrations of peach leaf juice were higher than that in the control group. Among them, the parasitism rate of A. gifuensis after M. persicae nymphs were fed with peach leaf juice in 1-fold dilution was the highest. Feeding M. persicae nymphs with different concentrations of peach leaf juice had significant effects on the body size of A. gifuensis offspring adults. Among them, the hind tibial length of offspring adults of A. gifuensis in the treatment group with peach leaf juice in 100-fold dilution was the longest and 0.018 mm longer than that in the control group. Feeding M. persicae nymphs with the peach leaf juice in 1-fold dilution resulted in the significant increase (11.34%) in the SOD activity in the offspring adults of A. gifuensis, but had no significant effect on the contents and activities of the other enzymes in the offspring adults of A. gifuensis. 【Conclusion】 In production, 1.6 mg/L methyltestosterone, 1.6 mg/L estradiol or M. persicae supplied with peach leaf juice in 1-fold dilution can be added as a rejuvenation measure to improve the artificial reproduction of A. gifuensis.

Occurrence levels, genetic diversity and phylogenetic analysis of the overwintering geographic populations of Chilo suppressalis (Lepidoptera: Pyralidae) in Guangdong Province, South China

YUAN Long-Yu, WU Yang-Gang, ZHONG Wen-Dong, LI Yan-Fang, DAI Yang-Shuo, ZHANG Zhen-Fei, XIAO Han-Xiang

2025, 68(5): 667-678. doi:10.16380/j.kcxb.2025.05.013

Abstract ( 22 )

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【Aim】 Surveys and analyses of the overwintering geographic population size monitoring, genetic diversity and phylogeny of Chilo suppressalis in Guangdong Province, South China were conducted to provide theoretical foundations and references for formulating effective joint prevention and control strategies against this pest. 【Methods】 During 2017-2022, the five-point sampling method was adopted to collect C. suppressalis samples from paddy fields in various regions of Guangdong Province, and the occurrence level of C. suppressalis was determined based on the average number of overwintering generations. PCR was used to amplify mitochondrial genes COI and COII of nine overwintering geographic populations of C. suppressalis in Guangdong Province. The genetic diversity and genetic differentiation trends of the overwintering geographic populations of C. suppressalis were analyzed using MEGA 7 and DNA Sequence Polymorphism 5.10.01 software, and the phylogenetic tree and a haplotype network diagram were constructed.【Results】 From 2017 to 2022, the geographical population base size of the overwintering C. suppressalis in Guangdong Province was very high. Since 2018, the number of overwintering C. suppressalis populations has basically remained at 7 500 individuals/hm², and in the most severely affected areas, it could reach 18 408 individuals/hm². A total of 132 COI and COII sequences were analyzed from nine overwintering geographic populations of C. suppressalis in Guangdong Province. The COI fragment was 749 bp in length, with 30 haplotypes and 54 polymorphic sites. The COII fragment was 474 bp in length, with 22 haplotypes and 29 polymorphic sites. Phylogenetic trees based on COI and COII sequences showed that the geographic populations of C. suppressalis in Guangdong and Jiangxi clustered together. The Nanxiong geographic population in northern Guangdong was relatively independent compared to other geographic populations which clustered together. The haplotype diversity (H_d=0.800-0.909) and nucleotide diversity (P_i=0.0035-0.0102) of the geographic populations of C. suppressalis in the Pearl River Delta Region, Northern Region of Guangdong, Western Region of Guangdong, Eastern Region of Guangdong, and Northern Region of Jiangxi were at high levels. The genetic diversity of geographic population in the Western Region of Guangdong was the lowest. Neutrality test results showed that the Tajima’s D value for the total population was －1.043 based on COI sequence and －1.907 based on COII sequence, while the Fu’s Fs values for the total population based on COI and COII sequences were －5.023 and －10.468, respectively. The Tajima’s D value and Fu’s Fs value for the total population were －1.313 and －31.67, respectively, based on combined COI+COII sequences. The genetic differentiation index F_st values for the total population based on COI and COII sequences were 0.144 and 0.102, respectively, while the gene flow N_m values were 1.49 and 2.20, respectively. The genetic differentiation index F_st value and gene flow N_m value for the total population based on combined COI+COII sequences were 0.229 and 0.84, respectively. 【Conclusion】 In recent years, the overwintering geographic populations of C. suppressalis in Guangdong Province have shown a trend of being predominant or even occurring in large numbers, and these populations have high levels of haplotypic polymorphism and genetic diversity. The overwintering geographic populations in eastern Guangdong are relatively rich in polymorphism, while those in western Guangdong have the lowest polymorphism. There is a certain degree of genetic differentiation among the overwintering populations of C. suppressalis in Guangdong Province, and some geographic populations have already undergone relatively large differentiation, such as the Nanxiong geographic population. The overwintering geographic populations of C. suppressalis in Guangdong Province and Jiangxi Province have close genetic relationships. Apart from the geographic populations from Western Region of Guangdong, the genetic differentiation between other different geographic populations is not significant. The genetic differentiation between geographic populations is weakly correlated with their distribution, and frequent gene exchange occurs among populations. The populations have not experienced significant expansion but are in a stable growth trend.

Research progress of the functions of sensory neuron membrane proteins (SNMPs) in insects

GUO Xiao-Li, YANG Dan-Hui, SUN Xue-Wen, SONG-Wei, WEN Jun-Bao

2025, 68(5): 679-696. doi:10.16380/j.kcxb.2025.05.014

Abstract ( 30 )

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Sensory neuron membrane proteins (SNMPs) are a class of membrane proteins uniquely to insects, typically possessing two characteristic transmembrane domains, and are also an important member of the CD36 family. Currently, insect SNMPs have been classified into five subfamily types, namely SNMP1, SNMP2, SNMP3, SNMP4 and SNMP5, each exhibiting distinct expression patterns across different insect species. SNMP1 subfamily genes, which are expressed in the antennae and olfactory sensory neurons (OSNs) of insects, have been extensively studied and confirmed to play a significant role in pheromone detection across various insect species. The widespread expression pattern of SNMP2 subfamily genes also suggests their role in olfaction and gustation. SNMP3 subfamily genes, which are specifically expressed in the midgut of lepidopteran insects, may function in digestion and immunity in insects. SNMP4 and SNMP5 subfamily genes which are unique to coleopteran insects, may be involved in a broader range of life activities in insects. Despite of the crucial role of SNMPs in insect olfactory system, the mechanism of action of SNMP1 with other receptor proteins has remained unclear. Additionally, research on the functions and mechanisms of action of the members of the other SNMP subfamilies especially in non-model insects remains limited. In this article, we summarized and discussed the diverse expression patterns of SNMP subfamily genes, various physiological and biological functions of SNMPs that may play in insect physiological activities, and the application of molecular biology, molecular genetics, heterologous cell expression systems, yeast two-hybrid, and other methods and technologies in the current functional study of insect SNMPs, providing references for future research on the function of insect SNMPs. Lastly, we put forward the following prospects of research focuses: (1) In-depth research on the relationship between SNMP1 and insect pheromones will contribute to the development of novel pheromone-based lures for pest control applications; (2) In the future, the use of artificial intelligence and protein structure analysis will aid in uncovering the mechanisms by which SNMPs interact with other receptor proteins to participate in odor recognition; and (3) Further research on other subfamilies of insect SNMPs in the realms of taste, digestion, immunity, and survival and development will not only enhance our understanding of the fundamental biological characteristics of insects but may also provide new strategies and methods for pest management.

Contents of Vol. 68 Issue 5

2025, 68(5): 697-697.

Abstract ( 8 )

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