Your search keyword '"Zheng, Weiwei"' showing total 11 results

1. MiR-2b-2-5p regulates lipid metabolism and reproduction by targeting CREB in Bactrocera dorsalis.

Author

Zhang, Shengfeng, Xie, Junfei, Luo, Rengang, Zhang, Hongyu, and Zheng, Weiwei

Subjects

ORIENTAL fruit fly, LIPID metabolism, REPRODUCTION, CYCLIC adenylic acid, FAT, GENITALIA

Abstract

In female animals, metabolic homoeostasis and reproductive fitness are critical to population expansion. The trade-off between lipid storage and reproduction inevitably occurs. However, most studies have focused on the complex network of relationships between reproductive and metabolic physiology at the transcriptional level. In this study, we identified a microRNA, miR-2b-2-5p, in a highly invasive quarantine pest, Bactrocera dorsalis. Knockdown of miR-2b-2-5p by antagomiR microinjection impaired ovarian development, reduced fecundity, and decreased triglyceride (TAG) storage in the fat body, whereas overexpression of miR-2b-2-5p by injection of its mimic caused reproductive defects similar to knockdown but increased TAG. Bioinformatics analysis and dual luciferase assay indicated that cyclic AMP response element (CRE)-binding protein (CREB) was the target gene of miR-2b-2-5p. RNAi-mediated knockdown of CREB led to excessive lipid storage and reproductive defects. Further starvation treatment revealed that miR-2b-2-5p functions by fine-tuning CREB expression in response to dietary stimuli. These results suggest that miR-2b-2-5p acts as a monitor to regulate CREB mRNA levels in the fat body, maintaining lipid homoeostasis and keeping the reproductive system on track. Thus, our study not only provides new insights into the interaction between metabolism and reproduction at the posttranscriptional level in B. dorsalis, but also providing a potential eco-friendly control strategy (RNAi-based biopesticides targeting essential miRNAs) for this notorious agricultural pest. [ABSTRACT FROM AUTHOR]

Published

2023

2. Small GTPase Rab40C is upregulated by 20‐hydroxyecdysone and insulin pathways to regulate ovarian development and fecundity.

Author

Zheng, Weiwei, Wu, Fangyu, Ye, Yinhao, Li, Tianran, Zhang, Zhenyu, and Zhang, Hongyu

Subjects

*FERTILITY, *GUANOSINE triphosphatase, *INSULIN, *ORIENTAL fruit fly, *INSECT reproduction

Abstract

The insulin and 20‐hydroxyecdysone (20E) pathways coordinately regulate insect vitellogenesis and ovarian development. However, the detailed molecular mechanisms such as the genes mediating the cooperation of the interaction of these 2 pathways in regulating insect reproductive development are not well understood. In the present study, a small GTPase, Rab40C, was identified from the notorious agricultural pest Bactrocera dorsalis. In addition to the well‐known RAB domain, it also has a unique SOCS‐box domain, which is different from other Rab‐GTPases. Moreover, we found that Rab40C was enriched in the ovaries of sexually mature females. RNA interference (RNAi)‐mediated knockdown of BdRab40C resulted in a decrease in vitellogenin synthesis, underdeveloped ovaries, and low fertility. Furthermore, depletion of insulin receptor InR or the heterodimer receptor of 20E (EcR or USP) by RNAi significantly decreased the transcription of BdRab40C and resulted in lower fecundity. Further studies revealed that the transcription of BdRab40C could be upregulated by the injection of insulin or 20E. These results indicate that Rab40C participates in the insulin and 20E pathways to coordinately regulate reproduction in B. dorsalis. Our results not only provide new insights into the insulin‐ and 20E‐stimulated regulatory pathways controlling female reproduction in insects but also contribute to the development of potential eco‐friendly strategies for pest control. [ABSTRACT FROM AUTHOR]

Published

2022

3. Identification of COP9 Signalosome Subunit Genes in Bactrocera dorsalis and Functional Analysis of csn3 in Female Fecundity

Author

Haozhe Li, Jing Zhang, Zhenyu Zhang, Zhang Rui, Hong-Yu Zhang, Tianran Li, Zheng Weiwei, and Wenfei Zhang

Subjects

Physiology, fecundity, Protein subunit, oriental fruit fly, Bactrocera dorsalis, lcsh:Physiology, reproduction, CSN, 03 medical and health sciences, Vitellogenin, 0302 clinical medicine, RNA interference, Physiology (medical), COP9 signalosome, Gene, 030304 developmental biology, Genetics, 0303 health sciences, Gene knockdown, lcsh:QP1-981, biology, sexual maturation, Fecundity, biology.organism_classification, biology.protein, vitellogenin, 030217 neurology & neurosurgery

Abstract

The COP9 signalosome (CSN) is an evolutionarily conserved multi-subunit complex that plays crucial roles in regulating various biological processes in plants, mammals, and the model insect Drosophila. However, it is poorly studied in non-model insects, whereas its role in fecundity remains unclear. In this study, all nine CSN subunits were identified and characterized in Bactrocera dorsalis, a major invasive agricultural tephritid pest. Each subunit gene, except for csn9x1, encoded a protein containing a PCI/PINT or MPN domain. Phylogenetic analysis revealed that all CSN subunits were individually clustered into a specific branch with their counterparts from other species. All CSN subunit genes were expressed in all detected developmental stages and tissues. Most subunits, except for csn8 and csn9x1, showed the highest expression level in the eggs. Notably, csn3 and csn5 were significantly enriched in mature female adults. Further analysis of csn3 revealed that it was enriched in the ovary and that its ovarian expression level gradually increased with the reproductive development process. RNAi-based knockdown of csn3 in female adults significantly reduced the number of laid eggs. The expression level of EcRB1 and USP, which encode the heterodimer receptors of 20E, and vitellogenin transcripts (Vg1 and Vg2) was suppressed in the fat body of female adults injected with csn3dsRNA. Decreased level of Vg1 protein was confirmed by means of Western blots. These data indicate that csn3 is involved in female reproduction by regulating 20E signaling and Vg synthesis. Overall, our study may facilitate the development of new strategies for controlling B. dorsalis since it provides insights into the evolution and expression patterns of all CSN subunit genes as well as the critical roles of csn3 in female fecundity.

Published

2019

4. Gut microbiota promotes host resistance to low-temperature stress by stimulating its arginine and proline metabolism pathway in adult Bactrocera dorsalis.

Author

Raza, Muhammad Fahim, Wang, Yichen, Cai, Zhaohui, Bai, Shuai, Yao, Zhichao, Awan, Umar Anwar, Zhang, Zhenyu, Zheng, Weiwei, and Zhang, Hongyu

Subjects

PROLINE, ORIENTAL fruit fly, PROLINE metabolism, NATURAL immunity, GUT microbiome, PLANT mitochondria, TRANSMISSION electron microscopy

Abstract

Gut symbiotic bacteria have a substantial impact on host physiology and ecology. However, the contribution of gut microbes to host fitness during long-term low-temperature stress is still unclear. This study examined the role of gut microbiota in host low-temperature stress resistance at molecular and biochemical levels in the oriental fruit fly Bactrocera dorsalis. The results showed that after the gut bacteria of flies were removed via antibiotic treatment, the median survival time was significantly decreased to approximately 68% of that in conventional flies following exposure to a temperature stress of 10°C. Furthermore, we found that Klebsiella michiganensis BD177 is a key symbiotic bacterium, whose recolonization in antibiotic treated (ABX) flies significantly extended the median survival time to 160% of that in the ABX control, and restored their lifespan to the level of conventional flies. Notably, the relative levels of proline and arginine metabolites were significantly downregulated by 34- and 10-fold, respectively, in ABX flies compared with those in the hemolymph of conventional flies after exposure to a temperature stress of 10°C whereas recolonization of ABX flies by K. michiganensis BD177 significantly upregulated the levels of proline and arginine by 13- and 10- fold, respectively, compared with those found in the hemolymph of ABX flies. qPCR analysis also confirmed that K. michiganensis-recolonized flies significantly stimulated the expression of transcripts from the arginine and proline metabolism pathway compared with the ABX controls, and RNAi mediated silencing of two key genes Pro-C and ASS significantly reduced the survival time of conventional flies, postexposure low-temperature stress. We show that microinjection of L-arginine and L-proline into ABX flies significantly increased their survival time following exposure to temperature stress of 10°C. Transmission electron microscopy (TEM) analysis further revealed that low-temperature stress caused severe destruction in cristae structures and thus resulted in abnormal circular shapes of mitochondria in ABX flies gut, while the recolonization of live K. michiganensis helped the ABX flies to maintain mitochondrial functionality to a normal status, which is important for the arginine and proline induction. Our results suggest that gut microbiota plays a vital role in promoting the host resistance to low-temperature stress in B. dorsalis by stimulating its arginine and proline metabolism pathway. Author summary: The physiological mechanisms by which insects survive at low temperatures have not yet been discovered. In addition, there are no reports to verify the role of gut symbionts in the B. dorsalis biology during low-temperature stress. By combining transcriptomic and metabolomic approaches, we found that the presence of gut symbionts, especially K. michiganensis BD177, helps the host B. dorsalis to elevate the levels of particular cryoprotectant transcripts and metabolites, which suggests that the gut symbiont K. michiganensis BD177 stimulates the host arginine and proline metabolism pathway to promote its resistance to long-term low-temperature stress via influencing the mitochondrial functionality. Finally, the methods of this study are relevant for investigating the underpinnings of other host-microbe interactions during environmental stress. [ABSTRACT FROM AUTHOR]

Published

2020

5. Identification of COP9 Signalosome Subunit Genes in Bactrocera dorsali s and Functional Analysis of csn3 in Female Fecundity.

Author

Zhang, Jing, Zhang, Zhenyu, Zhang, Rui, Zhang, Wenfei, Li, Haozhe, Li, Tianran, Zhang, Hongyu, and Zheng, Weiwei

Subjects

ORIENTAL fruit fly, VITELLOGENINS, DROSOPHILA, HETERODIMERS, TEPHRITIDAE

Abstract

The COP9 signalosome (CSN) is an evolutionarily conserved multi-subunit complex that plays crucial roles in regulating various biological processes in plants, mammals, and the model insect Drosophila. However, it is poorly studied in non-model insects, whereas its role in fecundity remains unclear. In this study, all nine CSN subunits were identified and characterized in Bactrocera dorsali s, a major invasive agricultural tephritid pest. Each subunit gene, except for csn9x1 , encoded a protein containing a PCI/PINT or MPN domain. Phylogenetic analysis revealed that all CSN subunits were individually clustered into a specific branch with their counterparts from other species. All CSN subunit genes were expressed in all detected developmental stages and tissues. Most subunits, except for csn8 and csn9x1 , showed the highest expression level in the eggs. Notably, csn 3 and csn 5 were significantly enriched in mature female adults. Further analysis of csn3 revealed that it was enriched in the ovary and that its ovarian expression level gradually increased with the reproductive development process. RNAi-based knockdown of csn3 in female adults significantly reduced the number of laid eggs. The expression level of EcRB1 and USP , which encode the heterodimer receptors of 20E, and vitellogenin transcripts (Vg1 and Vg2) was suppressed in the fat body of female adults injected with csn3 dsRNA. Decreased level of Vg1 protein was confirmed by means of Western blots. These data indicate that csn3 is involved in female reproduction by regulating 20E signaling and Vg synthesis. Overall, our study may facilitate the development of new strategies for controlling B. dorsali s since it provides insights into the evolution and expression patterns of all CSN subunit genes as well as the critical roles of csn3 in female fecundity. [ABSTRACT FROM AUTHOR]

Published

2019

6. The effects of RNA interference targeting Bactrocera dorsalis ds- Bdrpl19 on the gene expression of rpl19 in non-target insects.

Author

Chen, Aie, Zheng, Weiwei, Zheng, Wenping, and Zhang, Hongyu

Subjects

RNA interference, ORIENTAL fruit fly, GENE expression, INSECT genetics, GENE silencing, DOUBLE-stranded RNA, GENES, INSECTS

Abstract

Double-stranded RNA (dsRNA) designed to target pest genes emerges as a promising strategy for improving pest control. Therefore, it is necessary to assess the effects of dsRNA on non-target insects, such as native enemies and beneficial insects, to determine the environmental safety of such treatments. In this paper, we investigated the effects of dsRNA targeting rpl19 from Bactrocera dorsalis on non-target insects in citrus ecological systems by feeding the dsRNA to Bactrocera minax, Apis mellifera and Diachasmimorpha longicaudata. The results showed that when B. dorsalis were fed rpl19 CDS dsRNA or 3′UTR dsRNA, the expression of rpl19 was dramatically decreased. Feeding the Bdrpl19 CDS dsRNA to adult B. minax and D. longicaudata caused their respective rpl19 genes to be knocked down over 50-70 and 40 %, respectively, but it had no effect on the expression of the rpl19 gene in A. mellifera. The Bdrpl19 3′UTR dsRNA did not have any silencing effects on the expression levels of rpl19 in non-target insects. This study provides evidence that dsRNA can impact non-target organisms, but the 3′UTR dsRNA may not have effects in non-target organisms. [ABSTRACT FROM AUTHOR]

Published

2015

7. Odorant receptor co-receptor Orco is upregulated by methyl eugenol in male Bactrocera dorsalis (Diptera: Tephritidae)

Author

Zheng, Weiwei, Zhu, Chipan, Peng, Tao, and Zhang, Hongyu

Subjects

*ORIENTAL fruit fly, *OLFACTORY receptors, *ORCONECTES, *DOUBLE-stranded RNA, *EUGENOL, *POLYMERASE chain reaction

Abstract

Abstract: Bactrocera dorsalis is a destructive fruit-eating pest that causes severe economic damage to the fruit and vegetable industry. Methyl eugenol (ME) has been widely used as an effective sexual attractant for male fruit flies through olfactory perception. However, the molecular mechanism underlying the olfactory perception of ME remains unknown. Here, we report the characterization and functional analysis of a newly discovered cDNA that encodes a Drosophila melanogaster odorant receptor co-receptor Orco ortholog in B. dorsalis. qRT-PCR analysis revealed that it was abundantly expressed in the antenna of adult B. dorsalis. Notably, Orco was upregulated by ME in the antenna of male flies. Mature males of B. dorsalis showed significant taxis toward ME within 0.5h, and Orco was significantly upregulated in the attracted adults within the same period. Silencing Orco through the ingestion of dsRNA reduced the attractive effects of ME. These data suggest that Orco may play an essential role in ME attraction in the olfactory signal transduction pathway. [Copyright &y& Elsevier]

Published

2012

8. RNAi-Mediated Knockdown of Tssk1 and Tektin1 Genes Impair Male Fertility in Bactrocera dorsalis.

Author

Sohail, Summar, Tariq, Kaleem, Zheng, Weiwei, Ali, Muhammad Waqar, Peng, Wei, Raza, Muhammad Fahim, and Zhang, Hongyu

Subjects

ORIENTAL fruit fly, SPERMATOZOA, FERTILITY, MALE infertility, DOUBLE-stranded RNA, HUMAN fertility, RURAL population

Abstract

The genetic-based sterile insect technique (SIT) is an effective and environmentally safe strategy to diminish populations of agricultural and horticultural insect pests. Functional characterization of genes related to male fertility can enhance the genetic-based SIT. Tssk1 has been involved to control male fertility in both mammals and insects. Moreover, Tektin1 has also been revealed to influence male fertility in both human and mammals. These findings suggested that Tssk1 and Tektin1 identified from Bactrocera dorsalis could be required for male fertility in B. dorsalis. In this study, expression profiles of these two genes were studied at different developmental stages and in various tissues of adult males. Remarkably, it was found that Tssk1 and Tektin1 were highly expressed in the testis of mature adult males of B. dorsalis. Furthermore, Tssk1 and Tektin1 genes were downregulated by using the RNA interference (RNAi) method. Fertility assays including egg laying, hatching, and spermatozoa count were also performed to investigate male fertility of B. dorsalis. Results showed that knockdown of Tssk1 and Tektin1 caused male sterility up to 58.99% and 64.49%, respectively. As expected, the total numbers of spermatozoa were also significantly reduced by 65.83% and 73.9%, respectively. These results suggested that male sterility was happened wing to the low number of spermatozoa. In conclusion, we demonstrate that Tssk1 and Tektin1 are the novel agents that could be used to enhance the genetic-based SIT, or their double-stranded RNA (dsRNA) can be used as biopesticides to control the population of B. dorsalis. [ABSTRACT FROM AUTHOR]

Published

2019

9. The PLA2 gene mediates the humoral immune responses in Bactrocera dorsalis (Hendel).

Author

Li, Qiujia, Dong, Xiaolong, Zheng, Weiwei, and Zhang, Hongyu

Subjects

*PHOSPHOLIPASE A2, *IMMUNE response, *ORIENTAL fruit fly, *PHOSPHOLIPIDS, *HYDROLYSIS, *ESCHERICHIA coli

Abstract

The phospholipase A2 ( PLA2 ) gene encodes the enzyme that catalyzes the hydrolysis of phospholipids (PLs) from the sn-2 position. However, little is known about its role in humoral immune responses. In this study, we investigated the expression profile of PLA2 in different tissues and developmental stages in Bactrocera dorsalis (Hendel), and the results showed that the transcriptional level of PLA2 was high in the egg and mature stage and in the testis tissue. Bacterial infection increased the expression of PLA2 , and the highest degree of up-regulation appeared in the fat body. Silencing PLA2 influenced the expression of immune-related genes, including MyD88 and defensin in the Toll pathway and relish and diptericin in the Imd pathway. Moreover, the expression of MyD88 and defensin was down-regulated significantly in the ds- PLA2 group compared with those in the ds- egfp group when B . dorsalis was infected with L . monocytogenes and S . aureus , indicating that PLA2 was involved in the activation of the Toll pathway. Meanwhile, infection with L . monocytogenes and E . coli , which activate the Imd pathway, does not increase the mRNA levels of relish and diptericin in the ds- PLA2 group as severely as it increases those in the ds- egfp group, indicating that the Imd pathway was also repressed after silencing PLA2 . Notably, the development of lipid droplets in fat body cells was influenced by silencing PLA2, implying that PLA2 affects the function of fat body tissue. These results suggest that the PLA2 gene may mediate humoral immune responses by reducing lipid storage in fat body cells in B . dorsalis . [ABSTRACT FROM AUTHOR]

Published

2017

10. Nanomaterial-encapsulated dsRNA of ecdysone-induced early gene E75, a potential RNAi-based SIT strategy for pest control against Bactrocera dorsalis.

Author

Li, Xiaoyang, Xiao, Jiedan, Cheng, Xiaoqin, Zhang, Hongyu, and Zheng, Weiwei

Subjects

*ORIENTAL fruit fly, *PESTICIDE resistance, *ORAL drug administration, *DOUBLE-stranded RNA, *GENES

Abstract

Bactrocera dorsalis is a notorious pest widely distributed across most Asian countries. With the rapid development of pesticide resistance, new pest control methods are urgently needed. RNAi-based sterile insect technique (SIT) is a species-specific pest management strategy for B. dorsalis control. It is of great significance to identify more target genes from B. dorsalis , and improve the RNAi efficiency. In this study, microinjection-based RNAi results showed that six 20E response genes were necessary for male fertility of B. dorsalis , of which E75 was identified as the key target according to the lowest egg-laying number and hatching rate after E75 knockdown. Three nanoparticles chitosan (CS), chitosan‑sodium tripolyphosphate (CS-TPP), and star polycation (SPc) were used to encapsulate ds E75 expressed by HT115 strain. Properties analysis of nanoparticle-dsRNA complexes showed that both CS-TPP-dsRNA and SPc-dsRNA exhibited better properties (smaller size and polydispersity index) than CS-dsRNA. Moreover, oral administration of CS-TPP-ds E75 and SPc-ds E75 by males resulted in more abnormal testis and significantly lower fertility than feeding naked ds E75. Semi-field trials further confirmed that the number of hatched larvae was dramatically reduced in these two groups. Our study not only provides more valuable targets for RNAi-based SIT, but also promotes the application of environment-friendly management against B. dorsalis in the field. [ABSTRACT FROM AUTHOR]

Published

2024

11. Proteasome β3 subunit (PSMB3) controls female reproduction by promoting ecdysteroidogenesis during sexual maturation in Bactrocera dorsalis.

Author

Li, Tianran, Ye, Yinhao, Wu, Peng, Luo, Rengang, Zhang, Hongyu, and Zheng, Weiwei

Subjects

*ORIENTAL fruit fly, *REPRODUCTION, *GENE expression, *AGRICULTURAL pests, *DIPTERA, *FAT, *RNA sequencing

Abstract

Steroid hormone 20-hydroxyecdysone (20E) plays critical roles in reproductive development in dipterans and several other insect species. Ecdysteroidogenesis in the glands of larval or nymphal insects and other arthropods has been extensively studied, but that in the adult gonads remains largely unknown. Here we identified a proteasome β3 subunit (PSMB3) from a highly invasive pest Bactrocera dorsalis , and found that this gene was crucial for ecdysone production during female reproduction. PSMB3 was enriched in the ovary, and it was upregulated during sexual maturation. RNAi-mediated depletion of PSMB3 resulted in retarded ovarian development and decreased fecundity. Additionally, knockdown of PSMB3 reduced 20E titer in hemolymph of B. dorsalis. Molecularly, RNA sequencing and qPCR validation revealed that PSMB3 depletion suppressed the expression of 20E biosynthetic genes in the ovary and 20E responsive genes in the ovary and fat body. Furthermore, exogenous 20E rescued the inhibition of the ovarian development caused by PSMB3 depletion. Taken together, this study provides new insights into the adult reproductive development-related biological processes controlled by PSMB3 , and proposed a potential eco-friendly control strategy against this notorious agricultural pest. [Display omitted] • Proteasome subunit PSMB3 is involved in ovarian development and fecundity of Bactrocera dorsalis. • RNAi-mediated knockdown of PSMB3 leads to a reduced 20E titer. • PSMB3 depletion suppresses genes involved in ecdysone biosynthesis, 20E signaling, and vitellogenesis. • Exogenous 20E restores ovarian development impaired by PSMB3 depletion. [ABSTRACT FROM AUTHOR]

Published

2023