Your search keyword '"Guo, Xingqi"' showing total 14 results

1. Cloning and expression studies on glutathione S-transferase like-gene in honey bee for its role in oxidative stress

Author

Shan, Wenlu, Guo, Dezheng, Guo, Huijuan, Tan, Shuai, Ma, Lanting, Wang, Ying, Guo, Xingqi, and Xu, Baohua

Published

2022

2. The gene AccCyclin H mitigates oxidative stress by influencing trehalose metabolism in Apis cerana cerana.

Author

Peng, Hongyan, Guo, Dezheng, Peng, Hongmei, Guo, Hengjun, Wang, Hongfang, Wang, Ying, Xu, Baohua, Gao, Aiying, Liu, Zhenguo, and Guo, Xingqi

Subjects

TREHALOSE, APIS cerana, OXIDATIVE stress, OXIDANT status, GENE silencing, RNA interference, METABOLISM

Abstract

BACKGROUND: Environmental stress can induce oxidative stress in Apis cerana cerana, leading to cellular oxidative damage, reduced vitality, and even death. Currently, owing to an incomplete understanding of the molecular mechanisms by which A. cerana cerana resists oxidative damage, there is no available method to mitigate the risk of this type of damage. Cyclin plays an important role in cell stress resistance. The aim of this study was to explore the in vivo protection of cyclin H against oxidative damage induced by abiotic stress in A. cerana cerana and clarify the mechanism of action. We isolated and identified the AccCyclin H gene in A. cerana cerana and analysed its responses to different exogenous stresses. RESULTS: The results showed that different oxidative stressors can induce or inhibit the expression of AccCyclin H. After RNA‐interference‐mediated AccCyclin H silencing, the activity of antioxidant‐related genes and related enzymes was inhibited, and trehalose metabolism was reduced. AccCyclin H gene silencing reduced A. cerana cerana high‐temperature tolerance. Exogenous trehalose supplementation enhanced the total antioxidant capacity of A. cerana cerana, reduced the accumulation of oxidants, and improved the viability of A. cerana cerana under high‐temperature stress. CONCLUSION: Our findings suggest that trehalose can alleviate adverse stress and that AccCyclin H may participate in oxidative stress reactions by regulating trehalose metabolism. © 2023 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

3. AccsHSP21.7 enhances the antioxidant capacity of Apis cerana cerana.

Author

Huang, Yuanyuan, Zhang, Yuanying, Niu, Xiaojing, Sun, Yunhao, Wang, Hongfang, Guo, Xingqi, Xu, Baohua, and Wang, Chen

Subjects

APIS cerana, OXIDANT status, HEAT shock proteins, OXIDATIVE stress, RNA interference, GLYPHOSATE

Abstract

BACKGROUND: The widespread use of glyphosate has many adverse effects on Apis cerana cerana. Due to the incomplete understanding of the molecular mechanisms of glyphosate toxicity, there are no available methods for mitigating the threat of glyphosate to Apis cerana cerana. Small heat shock proteins (sHSPs) play an important role in resisting oxidative stress, but their mechanism of action in Apis cerana cerana remains unclear. RESULTS: In this experiment, we cloned and identified AccsHSP21.7. Studies have shown that AccsHSP21.7 contains binding motifs for various transcription factors related to oxidative stress. Abiotic stresses induced the expression of AccsHSP21.7. Bacteriostatic testing of a recombinant AccsHSP21.7 protein proved that Escherichia coli overexpressing AccsHSP21.7 showed increased resistance to oxidative stress. Knocking down the AccsHSP21.7 gene caused significant damage to midgut cells, which seriously disrupted the antioxidant system in Apis cerana cerana and greatly increased mortality under glyphosate stress. CONCLUSION: This study investigated the relationship between antioxidant regulation and the AccsHSP21.7 gene at the molecular level, and the results have guiding significance for the improvement of stress resistance in Apis cerana cerana. © 2023 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2023

4. Identification of the cuticle protein AccCPR2 gene in Apis cerana cerana and its response to environmental stress.

Author

Tan, Shuai, Li, Guilin, Guo, Hengjun, Li, Han, Tian, Ming, Liu, Qingxin, Wang, Ying, Xu, Baohua, and Guo, Xingqi

Subjects

APIS cerana, PROTEOMICS, PESTICIDE resistance, INSECT morphology, INSECT development

Abstract

Cuticular proteins (CPs) are known to play important roles in insect development and defence responses. The loss of CP genes can lead to changes in insect morphology and sensitivity to the external environment. In this study, we identified the AccCPR2 gene, which belongs to the CPR family (including the R&R consensus motif) of CPs, and explored its function in the response of Apis cerana cerana to adverse external stresses. Our results demonstrated that AccCPR2 was highly expressed in the late pupal stage and epidermis, and the expression of AccCPR2 may be induced or inhibited under different stressors. RNA interference experiments showed that knockdown of AccCPR2 reduced the activity of antioxidant enzymes, led to the accumulation of oxidative damage and suppressed the expression of several antioxidant genes. In addition, knockdown of AccCPR2 also reduced the pesticide resistance of A. cerana cerana. The overexpression of AccCPR2 in a prokaryotic system further confirmed its role in resistance to various stresses. In summary, AccCPR2 may play pivotal roles in the normal development and environmental stress response of A. cerana cerana. This study also enriched the theoretical knowledge of the resistance biology of bees. [ABSTRACT FROM AUTHOR]

Published

2022

5. Isolation of the AccCDK8 gene of Apis cerana cerana and its functional analysis under pesticide and heavy metal stress.

Author

Li, Jing, Guo, Dezheng, Bai, Jinhao, Wang, Hongfang, Wang, Chen, Wang, Ying, Guo, Xingqi, Xu, Baohua, and Liu, Zhenguo

Subjects

*APIS cerana, *HEAVY metals, *PESTICIDES, *FUNCTIONAL analysis, *CYCLIN-dependent kinases, *POLLUTION, *CELL cycle regulation

Abstract

Environmental pollution has gained negative attention in recent years. The pesticides and heavy metals are top list of environmental toxicants directly endangering the survival and development of Apis cerana cerana. Cyclin-dependent kinases (CDKs) are heteromeric serine/threonine kinases that participate in cell cycle regulation and have a vital role in pesticide and heavy metal stress in Apis cerana cerana. In this experiment, we filtered out CDK8 gene from Apis cerana cerana (AccCDK8) and investigated its functions of pesticide and heavy metals resistance. Sequence analysis indicated that AccCDK8 is highly homologous to multiple CDK8s and contains a highly conserved CDK active site sequence. Phylogenetic analysis showed that AmCDK8 and AccCDK8 were closely related evolutionarily in Apis mellifera. Transcriptome analysis revealed that AccCDK8 expression was differentially affected after exposure to pesticide and heavy metal stresses. This indicates that AccCDK8 has a significant role in the resistance of Apis cerana cerana to pesticide and heavy metal stresses. It has implications for studying the function of CDK in other insects in response to stress. [Display omitted] • Pesticides and heavy metals affect the survival of Apis cerana cerana. • CDK8 takes part in the oxidative stress response of Apis cerana cerana. • CDK8 is involved in the growth and reproduction of Apis cerana cerana. • AccCDK8 plays an important role in pesticide and heavy metals stresses. • We highlight the effects of some pesticides on the health of Apis cerana cerana. [ABSTRACT FROM AUTHOR]

Published

2024

6. Functional analysis of AccCDK2-like and AccCINP-like genes in Apis cerana cerana under pesticide and heavy metal stress.

Author

Li, Jing, Guo, Dezheng, Wang, Fang, Tian, Ming, Wang, Chen, Guo, Xingqi, Xu, Baohua, and Wang, Ying

Subjects

*APIS cerana, *HEAVY metals, *PESTICIDE resistance, *FUNCTIONAL analysis, *ESCHERICHIA coli, *PESTICIDES

Abstract

Heavy metals and pesticides represent prominent sources of pollution in the natural habitat of Apis cerana cerana , potentially endangering their health through the induction of oxidative stress reactions. This study aimed to address this issue by isolating AccCDK2-like and AccCINP-like proteins from Apis cerana cerana and investigating their functional roles in honey bee resistance against pesticide and heavy metal stresses. Bioinformatics analysis revealed significant homology of these proteins with those found in other species. Functional studies confirmed their participation in interaction with each other, alongside demonstrating distinct patterns of expression and localization. Specifically, AccCDK2-like exhibited higher expression levels in prepupae and muscle tissues, while AccCINP-like showed maximal expression in brown pupae and abdomen. Furthermore, the expression levels of these proteins were found to be modulated in response to pesticide and heavy metal stresses. Notably, overexpression of AccCDK2-like and AccCINP-like led to a noticeable alteration in E. coli 's ability to withstand external stresses. Additionally, silencing of the AccCDK2-like and AccCINP-like genes resulted in a significant reduction in antioxidant enzyme activity and the expression levels of genes related to antioxidant function. Consequently, the mortality rate of Apis cerana cerana under pesticide and heavy metal stresses conspicuously increased. Hence, our findings suggest that AccCDK2-like and AccCINP-like proteins potentially play a crucial role in the response of Apis cerana ceran a to pesticide and heavy metal stress, likely by modulating the antioxidant pathway. [Display omitted] • CDK2-like and CINP-like are involved in Apis cerana pesticide resistance. • CDK2-like and CINP-like are involved in Apis cerana heavy metal resistance. • CDK2-like and CINP-like take part in the Apis cerana 's oxidative stress response. [ABSTRACT FROM AUTHOR]

Published

2023

7. Identification of the AccCDK7 and AccCDK9 genes and their involvement in the response to resist external stress in Apis cerana cerana.

Author

Peng, Hongyan, Guo, Dezheng, Shan, Wenlu, Tan, Shuai, Wang, Chen, Wang, Hongfang, Liu, Zhenguo, Xu, Baohua, Guo, Xingqi, and Wang, Ying

Subjects

*APIS cerana, *CELL cycle regulation, *RNA interference, *ESCHERICHIA coli, *CYCLIN-dependent kinases

Abstract

Previous studies examining the functions of cyclin-dependent kinases (CDKs) have mainly focused on the regulation of the cell cycle. Recent studies have found that cyclin-dependent kinase 7 (CDK7) and cyclin-dependent kinase 9 (CDK9) play important roles in cell stress, metabolism of toxic substances and maintaining the stability of the internal environment. Here, we found that under stress conditions, the transcription and protein expression of AccCDK7 and AccCDK9 were induced to varying degrees. Meanwhile, the silencing of AccCDK7 and AccCDK9 also affected the expression of antioxidant genes and the activity of antioxidant enzymes, and reduced the survival rate of bees under high temperature stress. Furthermore, the exogenous overexpression of AccCDK7 and AccCDK9 improved the viability of yeast under stress conditions. Therefore, AccCDK7 and AccCDK9 may play roles in A.cerana cerana resistance to oxidative stress caused by external stimuli, potentially revealing a new mechanism of the honeybee response to oxidative stress. • Isolation of AccCDK7 and AccCDK9 from Apis cerana cerana. • The expression of AccCDK7 and AccCDK9 is induced by oxidative stress. • AccCDK7 and AccCDK9 can enhance the stress resistance of E. coli and yeast. • RNA interference experiments suggested that AccCDK7 and AccCDK9 is important for resistance against stresses. [ABSTRACT FROM AUTHOR]

Published

2023

8. RNAi-mediated silencing of AccCYP6k1 revealed its role in the metabolic detoxification of Apis cerana cerana.

Author

Tan, Shuai, Li, Guilin, Guo, Hengjun, Wang, Chen, Wang, Hongfang, Liu, Zhenguo, Xu, Baohua, Wang, Ying, and Guo, Xingqi

Subjects

*APIS cerana, *METABOLIC detoxification, *PESTICIDE resistance, *CYTOCHROME P-450, *XENOBIOTICS, *RNA interference

Abstract

Insect cytochrome P450 monooxygenases (P450s or CYPs) perform important functions in the metabolic detoxification of both endogenous and exogenous substrates. However, the mechanism of action of the P450 genes in bees is unclear. In this study, we investigated the effects of AccCYP6k1 on the metabolism and detoxification of Apis cerana cerana. Spatiotemporal expression profiling revealed that the expression of AccCYP6k1 was the highest in foragers (A15) and was mainly expressed in the leg, midgut and head. RT–qPCR results showed that AccCYP6k1 exhibited different expression patterns following exposure to xenobiotics. In addition, silencing AccCYP6k1 increased the pesticides sensitivity and affected the detoxification system and antioxidant process of A. cerana cerana. In brief, the induced expression of AccCYP6k1 is related to the resistance of A. cerana cerana , while knockdown AccCYP6k1 affect the pesticides resistance and metabolic detoxification system of A. cerana cerana. These findings not only support the theoretical basis of metabolic detoxification in bees but also provide a better understanding of P450-mediated resistance to pesticides in insects. [Display omitted] • The level of inducible expression of AccCYP6k1 is related to pesticide resistance. • Silencing AccCYP6k1 increased the sensitivity of Apis cerana cerana to abamectin and imidacloprid. • Silencing AccCYP6k1 had adverse effects on the detoxification system of Apis cerana cerana. [ABSTRACT FROM AUTHOR]

Published

2023

9. Role of the tyrosine aminotransferase AccTATN gene in the response to pesticide and heavy metal stress in Apis cerana cerana.

Author

Sun, Yunhao, Niu, Xiaojing, Huang, Yuanyuan, Wang, Lijun, Liu, Zhenguo, Guo, Xingqi, Xu, Baohua, and Wang, Chen

Subjects

*APIS cerana, *HEAVY metals, *PESTICIDE resistance, *RNA interference, *TYROSINE, *HEAVY metal toxicology, *PESTICIDES, *GLYPHOSATE

Abstract

Tyrosine aminotransferase (TATN) is the first enzyme involved in the metabolic degradation of tyrosine, and it plays an important role in tyrosine detoxification and helps the body resist oxidative damage. However, the function of TATN in Apis cerana cerana (A. c. cerana) remains unclear. To explore the role of TATN in the response to pesticide and heavy metal stress in A. c. cerana , AccTATN was isolated and identified. AccTATN was highly expressed in the integument and the adult stage. Exposure to multiple pesticides and heavy metal stress upregulated AccTATN expression. RNA interference experiments showed that silencing AccTATN reduced the resistance of A. c. cerana to glyphosate and avermectins stress. The expression of antioxidant-related genes and the activity of antioxidant enzymes were reduced after AccTATN was silenced, leading to the accumulation of oxidative damage. Overexpression of the recombinant AccTATN protein in a prokaryotic system also confirmed its role in heavy metal stress and improved antioxidant capacity. Our study showed that AccTATN may promote resistance to pesticide and heavy metal stress by regulating the antioxidant capacity of A. c. cerana. This study provides a valuable theoretical basis for A. c. cerana conservation. [Display omitted] • AccTATN gene was isolated and characterized from (A. c. cerana) • Pesticide and heavy metal stress can affect the expression of AccTATN. • AccTATN overexpression enhanced the tolerance of E. coli cells to oxidative stress. • AccTATN knockdown disrupted the original redox balance and caused oxidative stress. • AccTATN promotes A. c. cerana to resist pesticide and heavy metal stress. [ABSTRACT FROM AUTHOR]

Published

2023

10. The role of AccCDK20 and AccCDKN1 from Apis cerana cerana in development and response to pesticide and heavy metal toxicity.

Author

Bai, Jinhao, Guo, Dezheng, Li, Jing, Wang, Hongfang, Wang, Chen, Liu, Zhenguo, Guo, Xingqi, Wang, Ying, and Xu, Baohua

Subjects

*APIS cerana, *PESTICIDE resistance, *HONEYBEES, *ESCHERICHIA coli, *HEAVY metal toxicology, *GLYPHOSATE, *GENE silencing, *PESTICIDES

Abstract

Apis cerana cerana is a native bee species in China and plays a key role in agricultural production and ecological balance. However, the growth and development of Apis cerana cerana has not been smooth, and pesticide and heavy metal stress are key factors that have forced a dramatic decline in population size. This study was performed with the objective of investigating the role of AccCDK20 and AccCDKN1 in honey bee resistance to pesticide and heavy metal stress. RT–qPCR analysis revealed that AccCDK20 transcript levels were highest in brown-eyed pupae and AccCDKN1 transcript levels were highest in 1-day-old worker bees. In different tissues and body parts of adult bees, AccCDK20 transcript levels were highest in the head, and AccCDKN1 transcript levels were highest in the thorax. It was further observed that environmental stress can affect the transcript levels of the AccCDK20 and AccCDKN1 genes. Silencing of the AccCDK20 and AccCDKN1 genes resulted in altered activities of antioxidant-related genes and antioxidant-related enzymes. AccCDK20 and AccCDKN1 transcript levels were upregulated under glyphosate stress, and silencing of the genes resulted in reduced resistance to glyphosate and greatly increased mortality in Apis cerana cerana. In addition, gene function was verified by in vitro repression assays. Overexpression of the AccCDK20 and AccCDKN1 proteins in E. coli cells increased the resistance to ROS damage induced by CHP. In conclusion, AccCDK20 and AccCDKN1 play an indispensable role in honey bee resistance to pesticide and heavy metal stress. [Display omitted] • Silencing AccCDK20 and AccCDKN1 affects the oxidative system. • AccCDK20 and AccCDKN1 promote honey bee resistance to glyphosate stress. • Overexpression of AccCDK20 and AccCDKN1 enhances the antioxidant capacity of E. coli. [ABSTRACT FROM AUTHOR]

Published

2023

11. Activating transcription factor 2 (AccATF2) regulates tolerance to oxidative stress in Apis cerana cerana.

Author

Wang, Lijun, Wang, Jiayu, Guo, Huijuan, Wang, Ying, Xu, Baohua, Guo, Xingqi, and Wang, Chen

Subjects

*APIS cerana, *OXIDATIVE stress, *TRANSCRIPTION factors, *PUPAE, *PROTHROMBIN, *ESCHERICHIA coli, *BEE colonies

Abstract

Activating transcription factor 2 (ATF2), a basic leucine zipper (bZIP) transcription factor, plays a crucial role in immune and DNA damage response in mammals. However, the function of ATF2 in insects remains unknown. Here, we isolated the ATF2 gene from Apis cerana cerana (AccATF2) and found that AccATF2 was a main regulator of the honeybee response to oxidative stress. Our results showed that AccATF2 was highly expressed in the head, thorax and integument. AccATF2 was expressed throughout the development period of honeybees, and the highest AccATF2 transcript level was noted in brown-eyed pupae, indicating its indispensable roles in honeybee survival. Antioxidant function analysis showed that AccATF2 expression was markedly induced in response to oxidative stress caused by various environmental stresses. AccATF2 overexpression substantially enhanced the tolerance to oxidative stress of Escherichia coli cells compared with control cells. AccATF2 knockdown significantly increased the production of malondialdehyde (MDA), the transcription of antioxidant genes and the activity of antioxidant enzymes in honeybees, suggesting that AccATF2 knockdown resulted in oxidative damage to honeybees. Moreover, AccATF2 knockdown decreased honeybee resistance to oxidative stress caused by high temperature. Overall, AccATF2 plays an important role in maintaining redox homeostasis and protecting honeybees from oxidative stress caused by various environmental stimuli. Our discoveries add to a growing understanding of how honeybees cope with various adverse environmental conditions to ensure their survival. [Display omitted] • AccATF2 gene was isolated and characterized from Apis cerana cerana. • The expression of AccATF2 was induced by oxidative stress caused by adverse environment. • AccATF2 overexpression enhanced the tolerance of E. coli cells to oxidative stress. • AccATF2 knockdown disrupted the original redox balance and caused oxidative stress. [ABSTRACT FROM AUTHOR]

Published

2022

12. Identification and antioxidant capacity of 4-hydroxyphenylpyruvate dioxygenase (HPPD), a new favored herbicide target, in Apis cerana cerana.

Author

Gong, Xiangwei, Zhao, Guangdong, Shan, Wenlu, Guo, Huijuan, Wang, Chen, Liu, Qingxin, Xu, Baohua, Wang, Ying, and Guo, Xingqi

Subjects

*APIS cerana, *OXIDANT status, *AMINO acid analysis, *HERBICIDES, *ESCHERICHIA coli, *SUPEROXIDE dismutase

Abstract

4-Hydroxyphenylpyruvate dioxygenase (HPPD), a nonheme oxygenase, catalyzes the second step of the tyrosine catabolic pathway, which is shared by almost all aerobic life forms. This demonstrates its importance in aerobic biology. We isolated an HPPD homolog from Apis cerana cerana and named it AccHPPD. AccHPPD has an open reading frame (ORF) length of 900 bp and encodes a 299 amino acid protein that has a predicted molecular weight of 34.67 kDa and an isoelectric point of 6.27. Amino acid analysis showed that AccHPPD contained three conserved metal ion active sites, H-101, H-184 and E-267. Real-time fluorescence quantitative PCR (RT–qPCR) analysis showed that AccHPPD mainly existed in specific tissue sites, mainly high in the legs and in the thorax and epidermis, and in specific developmental stages, mainly adults. Under temperature, pesticide, heavy metal and ultraviolet (UV) radiation treatments, the expression level was downregulated, but under H 2 O 2 treatment, the expression level was upregulated. Exogenous expression of the recombinant AccHPPD plasmid in E. coli enhanced the resistance to HgCl 2 and H 2 O 2. Inhibition of AccHPPD activity was demonstrated by the upregulation of the tyrosine content after feeding with the inhibitor 2-(2-nitro-4-trifluoromethyl benzoyl)-1,3-cyclohexanedione (NTBC). After silencing of AccHPPD , the activities of peroxidase (POD), superoxide dismutase (SOD), and catalase (CAT) decreased, and the expression levels of AccBax- and AccCaspase8 -related genes were upregulated. The antioxidant genes AccCAT, AccGSTZ1, AccGSTD, AccSOD2, AccTpx3, AccCYP4G11, AccGDTS4, AccGSTO2 and AccMSRA were all upregulated. These results suggest that AccHPPD may serve an integral function in the response of A. cerana cerana to oxidative stress. [Display omitted] • AccHPPD enhances resistance to H 2 O 2. • NTBC inhibition has a time-limited effect. • Silencing of AccHPPD induces apoptotic genes. [ABSTRACT FROM AUTHOR]

Published

2022

13. Identification of the AccCDK1 gene in Apis cerana cerana and its relationship with the oxidative stress response.

Author

Peng, Hongyan, Guo, Dezheng, Shan, Wenlu, Liu, Zhenguo, Wang, Hongfang, Ma, Lanting, Xu, Baohua, and Guo, Xingqi

Subjects

*APIS cerana, *OXIDATIVE stress, *HONEYBEES, *RECOMBINANT proteins, *SUPEROXIDE dismutase, *CLONING

Abstract

The cyclin-dependent kinase (CDK) protein family plays an important role in regulating life functions, such as the cell cycle and metabolism. This study reports the first cloning and functional analysis of A. cerana cerana CDK1 (AccCDK1). The distribution profile of AccCDK1 in different developmental periods and different tissues was determined. The experimental results showed that the distribution of AccCDK1 was tissue-specific. AccCDK1 distribution at the transcriptional and translational levels was affected by stress conditions induced by H 2 O 2 , UV, HgCl 2 , CdCl 2 , extreme temperatures (4 °C, 44 °C) and pesticides (avermectin, lambda-cyhalothrin, haloxyfop- R -methyl, and glyphosate), which resulted in changes in the expression levels. These results suggest that AccCDK1 may have an important part to play in honey bee resistance to stress. The expression of a recombinant AccCDK1 protein in vitro enhanced the antistress capacities of E. coli and yeast, which suggests that AccCDK1 is related to the stress response. When AccCDK1 was silenced, the expression of some antioxidant genes was downregulated, and the enzymatic potencies of superoxide dismutase (SOD), peroxidase (POD) and catalase (CAT) were reduced, which suggests that AccCDK1 takes part in the body's resistance to oxidative stress upon external stimulation by influencing relevant antioxidants. Notably, the survival rate of A. cerana cerana under high-temperature-induced stress decreased after AccCDK1 silencing, which verifies our results. In conclusion, we found that AccCDK1 played an indispensable function in resisting oxidative stress and maintaining normal cellular functions. [Display omitted] • Oxidative stress can affect the expression of cyclin-dependent kinase1. • AccCDK1 silencing affects cellular antioxidant genes and enzymes. • AccCDK1 promotes the survival of eukaryotic and prokaryotic cells under stress. • AccCDK1 promotes bees to resist high temperature stress. [ABSTRACT FROM AUTHOR]

Published

2022

14. Identification and characterization of an Apis cerana cerana nucleoside diphosphate kinase (AccNDPK) associated with oxidative stress.

Author

Zhao, Guangdong, Zhang, Xuemei, Guo, Dezheng, Wang, Hongfang, Guo, Hengjun, Tian, Ming, Sun, Qinghua, Li, Han, Xu, Baohua, and Guo, Xingqi

Subjects

*APIS cerana, *OXIDATIVE stress, *CYHALOTHRIN, *HONEYBEES, *SUPEROXIDE dismutase

Abstract

Nucleoside diphosphate kinases (NDPKs) are widespread nucleotide-metabolizing enzymes that are involved in a variety of biological processes, including responses to oxidative stress. Although studies have been conducted on NDPKs in mammals and some plants, there is scant research on insect NDPKs, especially in honey bees. In the present study, we isolated AccNDPK from Apis cerana cerana. Sequence analysis showed that AccNDPK has high homology with many NDPKs and contains a highly conserved NDPK active site motif. Based on phylogenetic analysis, AccNDPK has a relatively recent evolutionary relationship with NDPKs in other hymenopteran insects. AccNDPK was found to be highly expressed in newly emerged honey bees and muscle tissues, and RT-qPCR analysis and bacteriostatic assays showed that the expression level of AccNDPK is affected by abnormal temperature, UV light, H 2 O 2 , heavy metals, and various pesticides. After AccNDPK knockdown, antioxidant-related genes, including AccCAT , AccCYP4G11 , AccGSTS4 , AccTpx1 and AccMsrA , were upregulated, whereas AccGSTD , AccGST1 , AccHSP22.6 and AccTrx1 were downregulated. Furthermore, catalase (CAT), superoxide dismutase (SOD), and peroxidase (POD) activities were significantly increased, and the tolerance of bees to oxidative stress caused by cyhalothrin was reduced by silencing of AccNDPK. Given these findings, we speculate that AccNDPK plays an important role in the oxidative stress response of A. cerana cerana. [Display omitted] • AccNDPK was induced by various environmental stresses. • Expression of recombinant AccNDPK enhances resistance of E. coli to oxidative stress. • Knockdown of AccNDPK affected several antioxidant-related genes and the activities of antioxidant-related enzymes. • The tolerance to cyhalothrin of A. cerana cerana was reduced after AccNDPK knockdown. [ABSTRACT FROM AUTHOR]

Published

2021