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Authors Ma

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Ma, Shimian


Publications
3

CitationNamesAbstract
Selective Autophagy Receptor <scp>CsNBR1</scp> Confers Citrus Huanglongbing Resistance by Degrading ‘ Candidatus Liberibacter Asiaticus’ Virulence Effectors Shi et al. (2026). Molecular Plant Pathology 27 (7) Liberibacter Ca. Liberibacter asiaticus
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A secretory protein from “ candidatus Liberibacter asiaticus” targets SNARE protein CsVTI13 to suppress autophagosome-vacuole fusion and promote bacterial infection Cui et al. (2025). Autophagy 21 (12)
Selective autophagy limits ‘Candidatus Liberibacter asiaticus’ infection by ATG8 mediated targeting of a virulence effector Cui et al. (2025). Phytopathology Research 7 (1) Ca. Liberibacter asiaticus
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Selective Autophagy Receptor <scp>CsNBR1</scp> Confers Citrus Huanglongbing Resistance by Degrading ‘ Candidatus Liberibacter Asiaticus’ Virulence Effectors
ABSTRACT The selective autophagy receptor NEIGHBOUR OF BRCA1 (NBR1) is a key regulator of plant immunity, but its role against bacterial pathogens remains poorly understood. Here, we demonstrated that overexpression of CsNBR1 confers citrus resistance to huanglongbing (HLB) caused by ‘ Candidatus Liberibacter asiaticus’ ( C Las). CsNBR1 can interact with multiple virulence effector proteins of C Las, including SDE5115, SDE1, SDE19 and SDE5, leading to their degradation via the autophagic pathway. In addition, expression of CsNBR1 in Nicotiana benthamiana mitigated the leaf curling and dwarfing phenotypes triggered by SDE1 by reducing the protein content of SDE1. These findings reveal that CsNBR1 positively regulates citrus defence against C Las by degrading its effector proteins via selective autophagy, providing both mechanistic insights and a potential target for resistance breeding.
Selective autophagy limits ‘Candidatus Liberibacter asiaticus’ infection by ATG8 mediated targeting of a virulence effector
Abstract Autophagy, a cellular process involved in the degradation and recycling of cellular components, has emerged as a pivotal mechanism for maintaining cellular homeostasis and combating pathogen invasion. Here, we provide evidence that the overexpression of CsATG8c inhibits CLas proliferation in citrus. CsATG8c directly interacts with the CLas effector protein SDE4040, leading to its degradation via the autophagic pathway. The SDE4040 protein acts as a virulence effector, and transgenic citrus plants expressing SDE4040 promote CLas proliferation by suppressing the hypersensitive response (HR) of the host and reducing the levels of jasmonic acid (JA). Collectively, these results demonstrate that ATG8-mediated selective autophagy limits CLas infection by degrading a virulence effector protein, which provides the first evidence for the role of autophagy in combating CLas infection.
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