Luqiu Mou scite author profile

Many human diseases, such as obesity and diabetes, show annual increases in prevalence and often involve intestinal microbes. One such probiotic bacterium, Akkermansia muciniphila, which was discovered a decade ago, has been reported to influence glucose homeostasis and to contribute to gut health. Amuc_1100, a functionally uncharacterized protein of A. muciniphila, was found to be a key active component in reducing the body weight of mice. Here, the crystal structure of Amuc_1100 (residues 31–317), referred to as Amuc_1100*, is reported at 2.1 Å resolution. Amuc_1100* has a similar fold to three proteins related to pilus formation, PilO, PilN and EpsL, indicating a similar function. Biochemical investigations further confirmed a monomeric state for the soluble region of Amuc_1100, which differs from the dimeric states of PilO, PilN and EpsL. This study provides a structural basis for the elucidation of the molecular mechanism of Amuc_1100.

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Structure of Amuc_1100 without transmembrane region from Akkermansia muciniphila

Mou¹,

Xiao²,

Deng³

2020

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cryo-EM structure of full length human Pannexin1

Mou¹,

Ke²,

Xiao³

et al. 2020

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cryo-EM structure of C-terminal truncated human Pannexin1

Mou¹,

Ke²,

Xiao³

et al. 2020

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Luqiu Mou

Structural basis for gating mechanism of Pannexin 1 channel

Crystal structure of the bacterial acetate transporter SatP reveals that it forms a hexameric channel

Crystal structure of monomeric Amuc_1100 from Akkermansia muciniphila

Structure of Amuc_1100 without transmembrane region from Akkermansia muciniphila

cryo-EM structure of full length human Pannexin1

cryo-EM structure of C-terminal truncated human Pannexin1

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