The structural basis of bacterial manganese import

Stephanie L. Neville; Jennie Sjöhamn; Jacinta A. Watts; Hugo MacDermott-Opeskin; Stephen J. Fairweather; Katherine Ganio; Alex Carey Hulyer; Aaron P. McGrath; Andrew J. Hayes; Tess R. Malcolm; Mark R. Davies; Norimichi Nomura; So Iwata; Megan L. O'Mara; Megan J. Maher; Christopher A. McDevitt

doi:10.1126/sciadv.abg3980

The structural basis of bacterial manganese import

Stephanie L. Neville, Jennie Sjöhamn, Jacinta A. Watts, Hugo MacDermott-Opeskin, Stephen J. Fairweather, Katherine Ganio, Alex Carey Hulyer, Aaron P. McGrath, Andrew J. Hayes, Tess R. Malcolm, Mark R. Davies, Norimichi Nomura, So Iwata, Megan L. O'Mara, Megan J. Maher^*, Christopher A. McDevitt^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

21 Citations (Scopus)

Abstract

Metal ions are essential for all forms of life. In prokaryotes, ATP-binding cassette (ABC) permeases serve as the primary import pathway for many micronutrients including the first-row transition metal manganese. However, the structural features of ionic metal transporting ABC permeases have remained undefined. Here, we present the crystal structure of the manganese transporter PsaBC from Streptococcus pneumoniae in an open-inward conformation. The type II transporter has a tightly closed transmembrane channel due to "extracellular gating"residues that prevent water permeation or ion reflux. Below these residues, the channel contains a hitherto unreported metal coordination site, which is essential for manganese translocation. Mutagenesis of the extracellular gate perturbs manganese uptake, while coordination site mutagenesis abolishes import. These structural features are highly conserved in metal-specific ABC transporters and are represented throughout the kingdoms of life. Collectively, our results define the structure of PsaBC and reveal the features required for divalent cation transport.

Original language	English
Article number	eabg3980
Journal	Science advances
Volume	7
Issue number	32
DOIs	https://doi.org/10.1126/sciadv.abg3980
Publication status	Published - Aug 2021

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Neville, S. L., Sjöhamn, J., Watts, J. A., MacDermott-Opeskin, H., Fairweather, S. J., Ganio, K., Hulyer, A. C., McGrath, A. P., Hayes, A. J., Malcolm, T. R., Davies, M. R., Nomura, N., Iwata, S., O'Mara, M. L., Maher, M. J., & McDevitt, C. A. (2021). The structural basis of bacterial manganese import. Science advances, 7(32), Article eabg3980. https://doi.org/10.1126/sciadv.abg3980

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title = "The structural basis of bacterial manganese import",

abstract = "Metal ions are essential for all forms of life. In prokaryotes, ATP-binding cassette (ABC) permeases serve as the primary import pathway for many micronutrients including the first-row transition metal manganese. However, the structural features of ionic metal transporting ABC permeases have remained undefined. Here, we present the crystal structure of the manganese transporter PsaBC from Streptococcus pneumoniae in an open-inward conformation. The type II transporter has a tightly closed transmembrane channel due to {"}extracellular gating{"}residues that prevent water permeation or ion reflux. Below these residues, the channel contains a hitherto unreported metal coordination site, which is essential for manganese translocation. Mutagenesis of the extracellular gate perturbs manganese uptake, while coordination site mutagenesis abolishes import. These structural features are highly conserved in metal-specific ABC transporters and are represented throughout the kingdoms of life. Collectively, our results define the structure of PsaBC and reveal the features required for divalent cation transport.",

author = "Neville, {Stephanie L.} and Jennie Sj{\"o}hamn and Watts, {Jacinta A.} and Hugo MacDermott-Opeskin and Fairweather, {Stephen J.} and Katherine Ganio and Hulyer, {Alex Carey} and McGrath, {Aaron P.} and Hayes, {Andrew J.} and Malcolm, {Tess R.} and Davies, {Mark R.} and Norimichi Nomura and So Iwata and O'Mara, {Megan L.} and Maher, {Megan J.} and McDevitt, {Christopher A.}",

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year = "2021",

month = aug,

doi = "10.1126/sciadv.abg3980",

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AU - Neville, Stephanie L.

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AU - Fairweather, Stephen J.

AU - Ganio, Katherine

AU - Hulyer, Alex Carey

AU - McGrath, Aaron P.

AU - Hayes, Andrew J.

AU - Malcolm, Tess R.

AU - Davies, Mark R.

AU - Nomura, Norimichi

AU - Iwata, So

AU - O'Mara, Megan L.

AU - Maher, Megan J.

AU - McDevitt, Christopher A.

PY - 2021/8

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N2 - Metal ions are essential for all forms of life. In prokaryotes, ATP-binding cassette (ABC) permeases serve as the primary import pathway for many micronutrients including the first-row transition metal manganese. However, the structural features of ionic metal transporting ABC permeases have remained undefined. Here, we present the crystal structure of the manganese transporter PsaBC from Streptococcus pneumoniae in an open-inward conformation. The type II transporter has a tightly closed transmembrane channel due to "extracellular gating"residues that prevent water permeation or ion reflux. Below these residues, the channel contains a hitherto unreported metal coordination site, which is essential for manganese translocation. Mutagenesis of the extracellular gate perturbs manganese uptake, while coordination site mutagenesis abolishes import. These structural features are highly conserved in metal-specific ABC transporters and are represented throughout the kingdoms of life. Collectively, our results define the structure of PsaBC and reveal the features required for divalent cation transport.

AB - Metal ions are essential for all forms of life. In prokaryotes, ATP-binding cassette (ABC) permeases serve as the primary import pathway for many micronutrients including the first-row transition metal manganese. However, the structural features of ionic metal transporting ABC permeases have remained undefined. Here, we present the crystal structure of the manganese transporter PsaBC from Streptococcus pneumoniae in an open-inward conformation. The type II transporter has a tightly closed transmembrane channel due to "extracellular gating"residues that prevent water permeation or ion reflux. Below these residues, the channel contains a hitherto unreported metal coordination site, which is essential for manganese translocation. Mutagenesis of the extracellular gate perturbs manganese uptake, while coordination site mutagenesis abolishes import. These structural features are highly conserved in metal-specific ABC transporters and are represented throughout the kingdoms of life. Collectively, our results define the structure of PsaBC and reveal the features required for divalent cation transport.

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JO - Science advances

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The structural basis of bacterial manganese import

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