Hongyun Huang scite author profile

Background Nosema bombycis is a unicellular eukaryotic pathogen of the silkworm, Bombyx mori, and is an economic and occupational hazard in the silkworm industry. Because of its long incubation period and horizontal and vertical transmission, it is subject to quarantine measures in sericulture production. The microsporidian life-cycle includes a dormant extracellular phase and intracellular proliferation phase, with the proliferation period being the most active period. This latter period lacks spore wall protection and may be the most susceptible stage for control. Methods In order to find suitable target for the selective breeding of N. bombycis-resistant silkworm strains, we screen highly expressed membrane proteins from the transcriptome data of N. bombycis. The subcellular localization of the candidate protein was verified by Indirect immunofluorescence analysis (IFA) and immunoelectron microscopy (IEM), and its role in N. bombycis proliferation was verified by RNAi. Results The N. bombycis protein (NBO_76g0014) was identified as a transmembrane protein and named NbTMP1. It is homologous with hypothetical proteins NGRA_1734 from Nosema granulosis. NbTMP1 has a transmembrane region of 23 amino acids at the N-terminus. Indirect immunofluorescence analysis (IFA) results suggest that NbTMP1 is secreted on the plasma membrane as the spores develop. Western blot and qRT-PCR analysis showed that NbTMP1 was expressed in all developmental stages of N. bombycis in infected cells and in the silkworm midgut. Downregulation of NbTMP1 expression resulted in significant inhibition of N. bombycis proliferation. Conclusions We confirmed that NbTMP1 is a membrane protein of N. bombycis. Reduction of the transcription level of NbTMP1 significantly inhibited N. bombycis proliferation, and this protein may be a target for the selective breeding of N. bombycis-resistant silkworm strains.

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Expression of anti-NbHK single-chain antibody in fusion with NSlmb enhances the resistance toNosema bombycisin Sf9-III cells

Zhang

Zheng

Huang

et al. 2022

Bull. Entomol. Res.

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Nosema bombycis is a destructive and specific intracellular parasite of silkworm, which is extremely harmful to the silkworm industry. N. bombycis is considered as a quarantine pathogen of sericulture because of its long incubation period and horizontal and vertical transmission. Herein, two single-chain antibodies targeting N. bombycis hexokinase (NbHK) were cloned and expressed in fusion with the N-terminal of Slmb (a Drosophila melanogaster FBP), which contains the F-box domain. Western blotting demonstrated that Sf9-III cells expressed NSlmb–scFv-7A and NSlmb–scFv-6H, which recognized native NbHK. Subsequently, the NbHK was degraded by host ubiquitination system. When challenged with N. bombycis, the transfected Sf9-III cells exhibited better resistance relative to the controls, demonstrating that NbHK is a prospective target for parasite controls and this approach represents a potential solution for constructing N. bombycis-resistant Bombyx mori.

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The Role of NbTMP1, a Surface Protein of Sporoplasm, in Nosema Bombycis Infection

Zheng

Huang

et al. 2020

Preprint

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Background: Nosema bombycis is a unicellular eukaryotic pathogen of the silkworm, Bombyx mori, and a hazard to the silkworm industry. Because of its long incubation period and horizontal and vertical transmission, it is a quarantine pathogen in sericulture. The microsporidian life cycle includes a dormant extracellular phase and intracellular proliferation phase. The proliferation period is the most active period of the microsporidian. This period lacks spore wall protection and may be the most susceptible stage for control. Results: The N. bombycis protein (NBO_76g0014) was identified as a transmembrane protein and named NbTMP1. It is not homologous with proteins from other microsporidia and species. NbTMP1 has a transmembrane region of 23 amino acids at the N-terminus. Indirect immunofluorescence analysis (IFA) results suggest that NbTMP1 is secreted on the plasma membrane as the spores develop. Western blot and qRT-PCR analysis showed that NbTMP1 expressed in all development stages of N. bombycis in infected cells and in the silkworm midgut. Down-regulation of NbTMP1 expression resulted in significant inhibition of N. bombycis proliferation. Conclusions: We confirmed that NbTMP1 is a membrane protein of N. bombycis. Reduction of the transcription level of NbTMP1 significantly inhibited N. bombycis proliferation, and this protein may be a target for the selective breeding of N. bombycis resistant silkworm strains.

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Hongyun Huang

Prevalence and risk factors associated with intestinal parasites in pigs in Chongqing, China

The role of NbTMP1, a surface protein of sporoplasm, in Nosema bombycis infection

Expression of anti-NbHK single-chain antibody in fusion with NSlmb enhances the resistance toNosema bombycisin Sf9-III cells

The Role of NbTMP1, a Surface Protein of Sporoplasm, in Nosema Bombycis Infection

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