Your search keyword '"Guo, Xingqi"' showing total 21 results

1. Identification of an Apis cerana cerana MAP kinase phosphatase 3 gene (AccMKP3) in response to environmental stress

Author

Chao, Yuzhen, Wang, Chen, Jia, Haihong, Zhai, Na, Wang, Hongfang, Xu, Baohua, Li, Han, and Guo, Xingqi

Published

2019

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. Role of a serine protease gene (AccSp1) from Apis cerana cerana in abiotic stress responses and innate immunity

Author

Gao, Lijun, Wang, Lijun, Yang, Xinxin, Wang, Ying, Liu, Zhenguo, Xu, Baohua, and Guo, Xingqi

Published

2019

4. Characteristics of AccSTIP1 in Apis cerana cerana and its role during oxidative stress responses

Author

Zhai, Na, Jia, Haihong, Ma, Manli, Chao, Yuzhen, Guo, Xingqi, and Li, Han

Published

2018

5. 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

6. Molecular cloning, expression and oxidative stress response of the vitellogenin Gene (AccVg) from Apis cerana cerana

Author

Zhang, Weixing, Liu, Zhenguo, Zhu, Ming, Ma, Lanting, Wang, Ying, Wang, Hongfang, Guo, Xingqi, and Xu, Baohua

Published

2017

7. Identification of a melatonin receptor type 1A gene (AccMTNR1A) in Apis cerana cerana and its possible involvement in the response to low temperature stress

Author

Li, Guilin, Zhang, Yanming, Ni, Yong, Wang, Ying, Xu, Baohua, and Guo, Xingqi

Published

2018

8. 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

9. Environmental Stress Responses of DnaJA1 , DnaJB12 and DnaJC8 in Apis cerana cerana.

Author

Li, Guilin, Zhao, Hang, Zhang, Xuemei, Zhang, Yanming, Zhao, Huayu, Yang, Xinxin, Guo, Xingqi, and Xu, Baohua

Abstract

DnaJ, also known as Hsp40, plays important roles in maintaining the normal physiological state of an organism under stress conditions by mediating essential processes, such as protein synthesis, degradation, folding and metabolism. However, the exact functions of most DnaJ members are not fully understood in insects. Here, we identified three genes, AccDnaJA1 , AccDnaJB12 , and AccDnaJC8 , in Apis cerana cerana and explored their connection with the environmental stress response. Quantitative real-time PCR results showed that the mRNA levels of AccDnaJA1 , AccDnaJB12 , and AccDnaJC8 were all induced under cold, UV, H2O2 and different pesticides treatment. The expression patterns of AccDnaJB12 and AccDnaJC8 were upregulated by CdCl2 and HgCl2 stress, while the transcriptional levels of AccDnaJA1 were downregulated by CdCl2 and HgCl2 stress. Western blot findings further indicated that AccDnaJB12 protein levels were increased by some stress conditions. Knockdown of each of these three genes downregulated the transcriptional patterns of several stress response-related genes at different levels. Functional analysis further demonstrated that the resistance of A. cerana cerana to lambda-cyhalothrin stress was reduced with knockdown of AccDnaJA1 , AccDnaJB12 , or AccDnaJC8 , indicating that these three genes may be involved in the tolerance to this pesticide. Taken together, these findings indicate that AccDnaJA1 , AccDnaJB12 , and AccDnaJC8 may play pivotal roles in the stress response by facilitating honeybee survival under some adverse circumstances. To our knowledge, this is the first report that reveals the roles of DnaJ family proteins under different adverse circumstances in A. cerana cerana. [ABSTRACT FROM AUTHOR]

Published

2018

10. Identification of a melatonin receptor type 1A gene (<italic>AccMTNR1A</italic>) in <italic>Apis cerana cerana</italic> and its possible involvement in the response to low temperature stress.

Author

Li, Guilin, Zhang, Yanming, Ni, Yong, Wang, Ying, Xu, Baohua, and Guo, Xingqi

Abstract

It is known that melatonin plays an indispensable role in the defense against some environment-induced stresses. The melatonin receptor (MTNR) is also closely linked to the environmental stress response in mammals. However, little is known about the function of the MTNR in insects, including honeybees. In this study, we identified a MTNR from Apis cerana cerana named AccMTNR1A, which contained a typical seven-transmembrane domain common to this family of receptors. A subcellular localization analysis showed that AccMTNR1A was localized in the cytomembrane. Additionally, we found that cold stress apparently boosted AccMTNR1A transcription, indicating that AccMTNR1A possibly connects to the cold stress response. The knockdown of AccMTNR1A attenuated the expression level of some genes associated with the cold stress response, suggesting that AccMTNR1A likely plays an analogous role with these genes during low temperature stress response. Moreover, silencing of AccMTNR1A also suppressed the transcription of some antioxidant genes, prompting the possibility that the response of AccMTNR1A to cold stress response may be related to antioxidant signaling pathways. Collectively, the findings presented here provide evidence that AccMTNR1A may play essential roles in protecting Apis cerana cerana from cold stress. [ABSTRACT FROM AUTHOR]

Published

2018

11. Identification of a DnaJC3 gene in Apis cerana cerana and its involvement in various stress responses.

Author

Zhang, Xuemei, Li, Guilin, Yang, Xinxin, Wang, Lijun, Wang, Ying, Guo, Xingqi, Li, Han, and Xu, Baohua

Subjects

*APIS cerana, *EMAMECTIN benzoate, *MOLECULAR chaperones, *RNA interference, *SUPEROXIDE dismutase, *GENETIC overexpression, *BEEHIVES

Abstract

As molecular chaperones, DnaJs play critical roles in maintaining cytoplasmic structure and resisting various stresses. However, the functions of DnaJs in insects are poorly understood. In this study, we identified a DnaJC3 from Apis cerana cerana (AccDnaJC3) and investigated its roles in adverse conditions. Real-time quantitative PCR analysis showed that AccDnaJC3 was highly expressed in muscle and epidermis. In addition, AccDnaJC3 was induced by a variety of stresses, such as 4 °C, 24 °C, 44 °C, H 2 O 2 , HgCl 2 , VC, UV, cyhalothrin, abamectin and emamectin benzoate treatments, whereas it was inhibited by CdCl 2 and paraquat treatments. Disc diffusion experiments indicated that overexpression of recombinant AccDnaJC3 enhanced Escherichia coli tolerance to some stress conditions. In contrast to the control group, when AccDnaJC3 was knocked down with RNAi technology, several other antioxidant genes were downregulated, suggesting that AccDnaJC3 may play important roles in stress response. Furthermore, we found that the enzyme activities of superoxide dismutase, peroxidase and catalase were lower in AccDnaJC3 -knockdown bees than in control bees. Taken together, these results suggest that AccDnaJC3 may be involved in various stress responses in Apis cerana cerana. Unlabelled Image • A DnaJC3 gene from Apis cerana cerana was isolated and characterized. • The expression of AccDnaJC3 was induced by various environmental stresses. • AccDnaJC3 enhances the tolerance of Escherichia coli to stress conditions. • RNA interference experiments suggested that AccDnaJC3 is important for resistance against stresses. [ABSTRACT FROM AUTHOR]

Published

2019

12. Developmental characterization and environmental stress responses of Y-box binding protein 1 gene (AccYB-1) from Apis cerana cerana.

Author

Li, Guilin, Wang, Lijun, Li, Han, Guo, Xingqi, Wang, Ying, Liu, Zhenguo, Wang, Hongfang, and Xu, Baohua

Subjects

*COLD shock proteins, *DNA, *INSECTS, *STRESS management, *LARVAE, *TISSUES, *GENES, *PUPAE

Abstract

Y-box binding protein 1 (YB-1) is a member of the cold shock domain protein superfamily and is involved in development, environmental stresses and DNA oxidative damage in many organisms. However, the precise functions of YB-1 are still not well understood in various insects, including bees. In the current study, we identified a YB-1 gene in Apis cerana cerana ( AccYB-1 ). The predicted cis-acting elements in the promoter sequence of AccYB-1 indicated its possible roles in development and stress responses. AccYB-1 expression was higher in one-day-old larvae and dark-eyed pupae than in other development stages. Tissue-specific expression analysis showed that the mRNA level of AccYB-1 was higher in the thorax and midgut than in other tissues. The results from real-time PCR showed that AccYB-1 was induced by many environmental stresses. Silencing AccYB-1 downregulated the transcriptional level of some growth- and development-related genes and antioxidant genes and decreased the enzyme activities of several antioxidant-related enzymes, further indicating a possible function of AccYB-1 in growth, development and stress responses. Taken together, our findings suggest that AccYB-1 may play an indispensable role in growth and development and environmental stress responses in Apis cerana cerana . To our knowledge, this is the first paper to explore the role of YB-1 in bees. [ABSTRACT FROM AUTHOR]

Published

2018

13. 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

14. Isolation of carboxylesterase (esterase FE4) from Apis cerana cerana and its role in oxidative resistance during adverse environmental stress.

Author

Ma, Manli, Jia, Haihong, Cui, Xuepei, Zhai, Na, Wang, Hongfang, Guo, Xingqi, and Xu, Baohua

Subjects

*CARBOXYLESTERASES, *APIS cerana, *PESTICIDES, *ANTIOXIDANTS, *RECOMBINANT proteins

Abstract

Carboxylesterases (CarEs) play vital roles in metabolising different physiologically important endogenous compounds and in detoxifying various harmful exogenous compounds in insects. Multiple studies of CarEs have focused on pesticide metabolism in insects, while few studies have aimed to identify CarE functions in oxidative resistance, particularly in Apis cerana cerana . In this study, we isolated a carboxylesterase gene, esterase FE4, from Apis cerana cerana and designated it towards an exploration of its roles as an antioxidant and in detoxification. We investigated AcceFE4 expression patterns in response to various stressors. A quantitative real-time PCR analysis revealed that AcceFE4 was up-regulated by H 2 O 2 , imidacloprid, and paraquat, and was down-regulated by 4 °C, UV radiation, CdCl 2 , and HgCl 2 . Additionally, the protein expression of this gene was down-regulated at 4 °C and up-regulated by H 2 O 2 . Disc diffusion assays showed that the AcceFE4 recombinant protein-expressing bacteria had a smaller killing zone than the control group with the paraquat, HgCl 2 and cumyl hydroperoxide treatments. Moreover, when the gene was knocked down by RNA interference, we observed that multiple oxidant genes (i.e., AccSOD , AccGST , AccTrx , AccMsrA, and others) were down-regulated in the knockdown samples. Superoxide dismutase (SOD), peroxidase (POD) and catalase (CAT) activity levels were reduced in the knockdown samples relative to the control group. Finally, we measured the enzyme activity of carboxylesterase and found that the enzyme activity was also reduced in the silent samples. Together, these data suggest that AcceFE4 may be involved in the oxidative resistance response during adverse stress. [ABSTRACT FROM AUTHOR]

Published

2018

15. Roles of a mitochondrial AccSCO2 gene from Apis cerana cerana in oxidative stress responses.

Author

Jia, Haihong, Ma, Manli, Zhai, Na, Liu, Zhenguo, Wang, Hongfang, Guo, Xingqi, and Xu, Baohua

Subjects

*APIS cerana, *CYTOCHROME oxidase, *OXIDATIVE stress, *RNA interference, *SUPEROXIDE dismutase genetics

Abstract

In eukaryotes, cytochrome c oxidase (COX) is a multimeric protein complex that is the last enzyme in the respiratory electron transport chain of mitochondria. Syntheses of cytochrome c oxidase (SCO) proteins are copper-donor chaperones involved in metalation of the CuA redox center of COX. However, its other precise actions are not yet understood. Here, we report the characterization of AccSCO2 from Apis cerana cerana ( Acc ). Our data showed that AccSCO2 expression was induced by cold (4 °C), CdCl 2 , HgCl 2 , ultraviolet (UV) light, and H 2 O 2 and was inhibited by different pesticide treatments. In addition, a disc diffusion assay of recombinant AccSCO2, AccSCO2-R1, and AccSCO2-R2 proteins showed that they played a functional role in protecting cells from oxidative stress involved in copper-dependent manner. Further, following knockdown of AccSCO2 in A. cerana cerana using RNA interference (RNAi), the expression levels of most antioxidant genes ( AccGSTD , AccGSTO1 , AccGSTS4 , AccSOD1 , AccSOD2 , etc.) were significantly decreased in the AccSCO2 -silenced bees compared with the control bees. Moreover, the antioxidant enzymatic activities of superoxide dismutase (SOD), peroxidase (POD) and catalase (CAT) were all lower in the silenced bees than in the control bees. Finally, the in vivo activity of COX was measured after AccSCO2 knockdown, which revealed a strong reduction in COX activity in the silenced bees. Thus, we hypothesize that AccSCO2 plays important roles in cellular stress responses and anti-oxidative processes, which help to regulate the production of mitochondrial reactive oxygen species and/or the impairment of mitochondrial activity under oxidative stress. [ABSTRACT FROM AUTHOR]

Published

2017

16. 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

17. 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

18. 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

19. sHsp22.6, an intronless small heat shock protein gene, is involved in stress defence and development in Apis cerana cerana.

Author

Zhang, Yuanying, Liu, Yaling, Guo, Xulei, Li, Yalu, Gao, Hongru, Guo, Xingqi, and Xu, Baohua

Subjects

*HEAT shock proteins, *APIS cerana, *AMINO acids, *QUANTITATIVE research, *POLYMERASE chain reaction, *CYHALOTHRIN

Abstract

Small heat shock proteins (sHSPs) play an important role in protecting against stress-induced cell damage and fundamental physiological processes. In this study, we identified an intronless sHsp gene from Apis cerana cerana ( AccsHsp22.6 ). The open reading frame of AccsHsp22.6 was 585 bp and encoded a 194 amino acid protein. Furthermore, a 2064 bp 5'-flanking region was isolated, and potential transcription factor binding sites associated with development and stress response were identified. Quantitative PCR and western blot analyses demonstrated that AccsHsp22.6 was detected at higher levels in the midgut than in other tissues tested, and it is highly expressed during the shift to different development stages. Moreover, AccsHsp22.6 was significantly up-regulated by abiotic and biotic stresses, such as 4 °C, 16 °C, 42 °C, cyhalothrin, pyridaben, H 2 O 2 , UV, CdCl 2 , 20-hydroxyecdysone and Ascosphaera apis treatments. However, AccsHsp22.6 was slightly repressed by other stresses, including 25 °C, phoxim, paraquat and HgCl 2 treatments. The recombinant AccsHSP22.6 also exhibited significant temperature tolerance, antioxidation and molecular chaperone activity. In addition, we found that knockdown of AccsHsp22.6 by RNA interference remarkably reduced temperature tolerance in A . cerana cerana . Taken together, these results suggest that AccsHsp22.6 plays an essential role in the development stages and defence against cellular stress. [ABSTRACT FROM AUTHOR]

Published

2014

20. 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

21. The role of melatonin and Tryptophan-5-hydroxylase-1 in different abiotic stressors in Apis cerana cerana.

Author

Fan, Wenyan, Li, Guilin, Zhang, Xuemei, Wang, Ying, Wang, Chen, Xu, Baohua, Guo, Xingqi, and Li, Han

Subjects

*APIS cerana, *CYHALOTHRIN, *MELATONIN, *SUPEROXIDE dismutase, *INSECT-plant relationships, *VITAMIN C

Abstract

• AccT5H-1 gene from Apis cerana cerana was isolated and characterized. • AccT5H-1 knockdown caused oxidative stressors of Apis cerana cerana. • The mRNA level of AccT5H-1 was induced by various environmental stressors. • Adding 10 µg/mL of melatonin to the diet could improve the cold resistance of bee. Tryptophan-5-hydroxylase-1 (T5H-1) is the rate-limiting enzyme in the biosynthesis of serotonin, which is involved in the biosynthesis of melatonin (Mel). Mel, a biological hormone, plays crucial roles in stressors tolerance, such as cold, hot, Ultraviolet (UV) and pesticide tolerance. However, the direct correlation between T5H-1 and Mel and the underlying mechanism in organisms remains elusive. Mel-mediated cold tolerance was studied extensively in plants and somewhat in insects, including bees. The present study isolated the Mel synthesis gene T5H-1 from Apis cerana cerana for the first time. qRT-PCR analysis indicated that AccT5H-1 played vital roles during some adverse conditions, including 4 °C, 8 °C, 10 °C, 45 °C, UV, cyhalothrin, abamectin, paraquat and bifenthrin exposure. Knockdown of AccT5H-1 using RNA interference (RNAi) technology upregulated most antioxidant genes. Additionally, an enzyme activity assay revealed higher contents of Malondialdehyde (MDA) and Hydrogen peroxide (H 2 O 2), lower content of Vitamin C (VC), and higher activities of Glutathione S-transferase (GST), Superoxide dismutase (SOD), Catalase (CAT) and Peroxidase (POD) in the AccT5H-1 silenced group than the control group. These results suggest that AccT5H-1 is involved in the response to different oxidative stressors in A. cerana cerana. The survival rate of A. cerana cerana exposed to low temperature treatment revealed that the optimal concentration of Mel in the diet was 10 µg/mL. We also found that the antioxidant enzyme (GST, SOD, POD and CAT) concentrations at 10 µg/mL Mel increased to different degrees, and the content of oxidizing substances (MDA and H 2 O 2) decreased, the content of VC increased, and the content of substances that promote cold resistance (glycerol and glycogen) increased. Mel increased the resistance of A. cerana cerana exposed to low temperatures. The expression of AccT5H-1 decreased after the feeding of exogenous Mel to bees. These results provide a reference for other insect studies on Mel and T5H-1. [ABSTRACT FROM AUTHOR]

Published

2021