Deciphering ion transport and ATPase coupling in the intersubunit tunnel of KdpFABC

Jakob M Silberberg; Robin A Corey; Lisa Hielkema; Charlott Stock; Phillip J Stansfeld; Cristina Paulino; Inga Hänelt

doi:10.1038/s41467-021-25242-x

Deciphering ion transport and ATPase coupling in the intersubunit tunnel of KdpFABC

Jakob M Silberberg, Robin A Corey, Lisa Hielkema, Charlott Stock, Phillip J Stansfeld^*, Cristina Paulino^*, Inga Hänelt^*

^*Corresponding author voor dit werk

Elektronenmicroscopie

Onderzoeksoutput: Article › Academic › peer review

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KdpFABC, a high-affinity K+ pump, combines the ion channel KdpA and the P-type ATPase KdpB to secure survival at K+ limitation. Here, we apply a combination of cryo-EM, biochemical assays, and MD simulations to illuminate the mechanisms underlying transport and the coupling to ATP hydrolysis. We show that ions are transported via an intersubunit tunnel through KdpA and KdpB. At the subunit interface, the tunnel is constricted by a phenylalanine, which, by polarized cation-π stacking, controls K+ entry into the canonical substrate binding site (CBS) of KdpB. Within the CBS, ATPase coupling is mediated by the charge distribution between an aspartate and a lysine. Interestingly, individual elements of the ion translocation mechanism of KdpFABC identified here are conserved among a wide variety of P-type ATPases from different families. This leads us to the hypothesis that KdpB might represent an early descendant of a common ancestor of cation pumps.

Originele taal-2	English
Artikelnummer	5098
Aantal pagina's	12
Tijdschrift	Nature Communications
Volume	12
Nummer van het tijdschrift	1
DOI's	https://doi.org/10.1038/s41467-021-25242-x
Status	Published - 24-aug.-2021

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Deciphering ion transport and ATPase coupling in the intersubunit tunnel of KdpFABCFinal publisher's version, 1,86 MBLicentie: CC BY

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title = "Deciphering ion transport and ATPase coupling in the intersubunit tunnel of KdpFABC",

abstract = "KdpFABC, a high-affinity K+ pump, combines the ion channel KdpA and the P-type ATPase KdpB to secure survival at K+ limitation. Here, we apply a combination of cryo-EM, biochemical assays, and MD simulations to illuminate the mechanisms underlying transport and the coupling to ATP hydrolysis. We show that ions are transported via an intersubunit tunnel through KdpA and KdpB. At the subunit interface, the tunnel is constricted by a phenylalanine, which, by polarized cation-π stacking, controls K+ entry into the canonical substrate binding site (CBS) of KdpB. Within the CBS, ATPase coupling is mediated by the charge distribution between an aspartate and a lysine. Interestingly, individual elements of the ion translocation mechanism of KdpFABC identified here are conserved among a wide variety of P-type ATPases from different families. This leads us to the hypothesis that KdpB might represent an early descendant of a common ancestor of cation pumps.",

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T1 - Deciphering ion transport and ATPase coupling in the intersubunit tunnel of KdpFABC

AU - Silberberg, Jakob M

AU - Corey, Robin A

AU - Hielkema, Lisa

AU - Stock, Charlott

AU - Stansfeld, Phillip J

AU - Paulino, Cristina

AU - Hänelt, Inga

PY - 2021/8/24

Y1 - 2021/8/24

N2 - KdpFABC, a high-affinity K+ pump, combines the ion channel KdpA and the P-type ATPase KdpB to secure survival at K+ limitation. Here, we apply a combination of cryo-EM, biochemical assays, and MD simulations to illuminate the mechanisms underlying transport and the coupling to ATP hydrolysis. We show that ions are transported via an intersubunit tunnel through KdpA and KdpB. At the subunit interface, the tunnel is constricted by a phenylalanine, which, by polarized cation-π stacking, controls K+ entry into the canonical substrate binding site (CBS) of KdpB. Within the CBS, ATPase coupling is mediated by the charge distribution between an aspartate and a lysine. Interestingly, individual elements of the ion translocation mechanism of KdpFABC identified here are conserved among a wide variety of P-type ATPases from different families. This leads us to the hypothesis that KdpB might represent an early descendant of a common ancestor of cation pumps.

AB - KdpFABC, a high-affinity K+ pump, combines the ion channel KdpA and the P-type ATPase KdpB to secure survival at K+ limitation. Here, we apply a combination of cryo-EM, biochemical assays, and MD simulations to illuminate the mechanisms underlying transport and the coupling to ATP hydrolysis. We show that ions are transported via an intersubunit tunnel through KdpA and KdpB. At the subunit interface, the tunnel is constricted by a phenylalanine, which, by polarized cation-π stacking, controls K+ entry into the canonical substrate binding site (CBS) of KdpB. Within the CBS, ATPase coupling is mediated by the charge distribution between an aspartate and a lysine. Interestingly, individual elements of the ion translocation mechanism of KdpFABC identified here are conserved among a wide variety of P-type ATPases from different families. This leads us to the hypothesis that KdpB might represent an early descendant of a common ancestor of cation pumps.

U2 - 10.1038/s41467-021-25242-x

DO - 10.1038/s41467-021-25242-x

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SN - 2041-1723

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JO - Nature Communications

JF - Nature Communications

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M1 - 5098

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Deciphering ion transport and ATPase coupling in the intersubunit tunnel of KdpFABC

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