Structural basis for the Mg 2+ recognition and regulation of the CorC Mg 2+ transporter
The CNNM/CorC family proteins are Mg transporters that are widely distributed in all domains of life. In bacteria, CorC has been implicated in the survival of pathogenic microorganisms. In humans, CNNM proteins are involved in various biological events, such as body absorption/reabsorption of Mg and...
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| Veröffentlicht in: | Science advances 2021-02, Vol.7 (7) |
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| creator | Huang, Yichen Jin, Fei Funato, Yosuke Xu, Zhijian Zhu, Weiliang Wang, Jing Sun, Minxuan Zhao, Yimeng Yu, Ye Miki, Hiroaki Hattori, Motoyuki |
| description | The CNNM/CorC family proteins are Mg
transporters that are widely distributed in all domains of life. In bacteria, CorC has been implicated in the survival of pathogenic microorganisms. In humans, CNNM proteins are involved in various biological events, such as body absorption/reabsorption of Mg
and genetic disorders. Here, we determined the crystal structure of the Mg
-bound CorC TM domain dimer. Each protomer has a single Mg
binding site with a fully dehydrated Mg
ion. The residues at the Mg
binding site are strictly conserved in both human CNNM2 and CNNM4, and many of these residues are associated with genetic diseases. Furthermore, we determined the structures of the CorC cytoplasmic region containing its regulatory ATP-binding domain. A combination of structural and functional analyses not only revealed the potential interface between the TM and cytoplasmic domains but also showed that ATP binding is important for the Mg
export activity of CorC. |
| doi_str_mv | 10.1126/sciadv.abe6140 |
| format | Article |
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transporters that are widely distributed in all domains of life. In bacteria, CorC has been implicated in the survival of pathogenic microorganisms. In humans, CNNM proteins are involved in various biological events, such as body absorption/reabsorption of Mg
and genetic disorders. Here, we determined the crystal structure of the Mg
-bound CorC TM domain dimer. Each protomer has a single Mg
binding site with a fully dehydrated Mg
ion. The residues at the Mg
binding site are strictly conserved in both human CNNM2 and CNNM4, and many of these residues are associated with genetic diseases. Furthermore, we determined the structures of the CorC cytoplasmic region containing its regulatory ATP-binding domain. A combination of structural and functional analyses not only revealed the potential interface between the TM and cytoplasmic domains but also showed that ATP binding is important for the Mg
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and genetic disorders. Here, we determined the crystal structure of the Mg
-bound CorC TM domain dimer. Each protomer has a single Mg
binding site with a fully dehydrated Mg
ion. The residues at the Mg
binding site are strictly conserved in both human CNNM2 and CNNM4, and many of these residues are associated with genetic diseases. Furthermore, we determined the structures of the CorC cytoplasmic region containing its regulatory ATP-binding domain. A combination of structural and functional analyses not only revealed the potential interface between the TM and cytoplasmic domains but also showed that ATP binding is important for the Mg
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transporters that are widely distributed in all domains of life. In bacteria, CorC has been implicated in the survival of pathogenic microorganisms. In humans, CNNM proteins are involved in various biological events, such as body absorption/reabsorption of Mg
and genetic disorders. Here, we determined the crystal structure of the Mg
-bound CorC TM domain dimer. Each protomer has a single Mg
binding site with a fully dehydrated Mg
ion. The residues at the Mg
binding site are strictly conserved in both human CNNM2 and CNNM4, and many of these residues are associated with genetic diseases. Furthermore, we determined the structures of the CorC cytoplasmic region containing its regulatory ATP-binding domain. A combination of structural and functional analyses not only revealed the potential interface between the TM and cytoplasmic domains but also showed that ATP binding is important for the Mg
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| title | Structural basis for the Mg 2+ recognition and regulation of the CorC Mg 2+ transporter |
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