Bin-Wu Zhang scite author profile

Bin-Wu Zhang

4Publications

32Citation Statements Received

397Citation Statements Given

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Huaqiao University

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Possible Insecticidal Mechanism of Cry41-Related Toxin against Myzus persicae by Enhancing Cathepsin B Activity

Zhao

Zhang

et al. 2020

J. Agric. Food Chem.

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Cry toxins produced by Bacillus thuringiensis are well known for their high insecticidal activities against Lepidoptera, Diptera, and Coleoptera; however, their activities against Aphididae are very low. Recently, it has been reported that a Cry41-related toxin exhibited moderate activity against the aphid Myzus persicae, and thus, it is highly desirable to uncover its unique mechanism. In this paper, we report that Cathepsin B, calcium-transporting ATPase, and symbiotic bacterial-associated protein ATP-dependent-6-phosphofructokinase were pulled down from the homogenate of M. persicae as unique proteins that possibly bound to Cry41related toxin. Cathepsin B has been reported to cleave and inactivate antiapoptotic proteins and plays a role in caspase-initiated apoptotic cascades. In this study, Cathepsin B was expressed in Escherichia coli and purified, and in vitro interaction between recombinant Cathepsin B and Cry41-related toxin was demonstrated. Interestingly, we found that addition of Cry41-related toxin obviously enhanced Cathepsin B activity. We propose a model for the mechanism of Cry41-related toxin as follows: Cry41-related toxin enters the aphid cells and enhances Cathepsin B activity, resulting in acceleration of apoptosis of aphid cells.

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The mechanism of Cry41‐related toxin against Myzus persicae based on its interaction with Buchnera‐derived ATP‐dependent 6‐phosphofructokinase

Lin

Zhang

et al. 2023

Pest Management Science

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BACKGROUND: Myzus persicae (Hemiptera: Aphididae) is one of the most notorious pests of many crops worldwide. Most Cry toxins produced by Bacillus thuringiensis show very low toxicity to M. persicae; however, a study showed that Cry41-related toxin had moderate toxic activity against M. persicae. In our previous work, potential Cry41-related toxin-binding proteins in M. persicae were identified, including cathepsin B, calcium-transporting ATPase, and Buchnera-derived ATP-dependent 6-phosphofructokinase (PFKA). Buchnera is an endosymbiont present in almost all aphids and it provides necessary nutrients for aphid growth. This study investigated the role of Buchnera-derived PFKA in Cry41-related toxicity against M. persicae.RESULTS: In this study, recombinant PFKA was expressed and purified, and in vitro assays revealed that PFKA bound to Cry41-related toxin, and Cry41-related toxin at 25 ∼g ml −1 significantly inhibited the activity of PFKA. In addition, when M. persicae was treated with 30 ∼g ml −1 of Cry41-related toxin for 24 h, the expression of dnak, a single-copy gene in Buchnera, was significantly decreased, indicating a decrease in the number of Buchnera.CONCLUSION: Our results suggest that Cry41-related toxin interacts with Buchnera-derived PFKA to inhibit its enzymatic activity and likely impair cell viability, resulting in a decrease in the number of Buchnera, and finally leading to M. persicae death. These findings open up new perspectives in our understanding of the mode of action of Cry toxins and are useful in helping improve Cry toxicity for aphid control.

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Protection of HSP60 in Myzus persicae Treated with Cry7Ab4 Toxin

Jin

Zhao

et al. 2023

ACS Agric. Sci. Technol.

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Heat shock proteins (HSPs) are essential for the survival and development of animals under various stresses. However, little is known about the function of HSPs in insects response to Bacillus thuringiensis (Bt) toxins treatment. Here, we investigated the role of HSP60 in Myzus persicae (M. persicae) treated with an active Cry7Ab4 toxic core. First, we demonstrated the insensitivity of M. persicae to the Cry7Ab4 toxic core through a membrane capsule method. Then, using protein pull-down assay, several putative Cry7Ab4-binding proteins, including HSP60, were identified in an M. persicae nymph. P-loop GTPase Obg-like ATPase-1 (OLA1) was also found to be a Cry2Ab12-binding protein (unpublished data). Subsequent enzymatic and RT-qPCR assays revealed that highly expressed HSP60 removed the enhanced OLA1 activity caused by Cry7Ab4. ELISA analysis confirmed the binding interactions between Cry7Ab4, HSP60, and OLA1. Interestingly, a combination of ELISA and molecular docking analysis further suggested that HSP60 could block the binding interaction between Cry7Ab4 and OLA1 via higher affinity with Cry7Ab4. Besides, the Jun N-terminal kinase (JNK) pathway was found to be activated. Overall, we proposed the model that HSP60 protects M. persicae from Cry7Ab4 toxin. The study implies that HSP60 can be a crucial factor in insect defense against Cry toxins.

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Indications for the Potential of Cry1Ab1 for Inhibiting Aphid Development and Virus Transmission

Jin

Zhang

Zhao

et al. 2022

Preprint

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Cry1A-type toxins are insecticidal proteins from Bacillus thuringiensis that are widely used to control Lepidoptera pests, and they are believed to be useless for the control of Hemiptera pests. In this paper, the purified Cry1Ab1 toxic core rarely killed peach aphids (Myzus persicae), as its Lethal Concentration 50 (LC50) was up to 1308.6 µg/ml, as measured using the membrane-encapsulation method. We then identified the proteins that bind to the Cry1Ab1 toxic core in M. persicae using pull-down assays and liquid chromatography−tandem mass spectrometry (LC-MS/MS), and then analyzed the associated functions of these proteins using the STRING database. GPN-loop GTPase 2, beta-actin, ATP synthase subunit alpha and an unknown and annotated protein, which are mainly involved in cell phagocytosis, RNA polymerase, cellular oxidative phosphorylation and other related functions, were the proteins that bound to the Cry1Ab1 toxic core. Indications from docking showed that Cry1Ab1 toxic core, ATP synthase subunit alpha and beta-actin or Cry1Ab1 toxic core, ATP synthase subunit alpha and GPN-loop GTPase 2 being a complex to exert effects; Finally, models for underlying the molecular mechanism of Cry1Ab1 in M. persicae and disturbing virus transmission were proposed. The study will suggest new insights for aphid-effective Cry evaluation and improvement.

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Bin-Wu Zhang

Possible Insecticidal Mechanism of Cry41-Related Toxin against Myzus persicae by Enhancing Cathepsin B Activity

The mechanism of Cry41‐related toxin against Myzus persicae based on its interaction with Buchnera‐derived ATP‐dependent 6‐phosphofructokinase

Protection of HSP60 in Myzus persicae Treated with Cry7Ab4 Toxin

Indications for the Potential of Cry1Ab1 for Inhibiting Aphid Development and Virus Transmission

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