Cobalamin decyanation by the membrane transporter BtuM

Jose M Martínez Felices; Yan Borges Barreto; Chancievan Thangaratnarajah; Jacob J Whittaker; Adriano M Alencar; Albert Guskov; Dirk J Slotboom

doi:10.1016/j.str.2024.04.014

Cobalamin decyanation by the membrane transporter BtuM

Jose M Martínez Felices
, Yan Borges Barreto
, Chancievan Thangaratnarajah
, Jacob J Whittaker
, Adriano M Alencar
, Albert Guskov
, Dirk J Slotboom^*

^*Corresponding author for this work

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

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Abstract

BtuM is a bacterial cobalamin transporter that binds the transported substrate in the base-off state, with a cysteine residue providing the α-axial coordination of the central cobalt ion via a sulfur-cobalt bond. Binding leads to decyanation of cobalamin variants with a cyano group as the β-axial ligand. Here, we report the crystal structures of untagged BtuM bound to two variants of cobalamin, hydroxycobalamin and cyanocobalamin, and unveil the native residue responsible for the β-axial coordination, His28. This coordination had previously been obscured by non-native histidines of His-tagged BtuM. A model in which BtuM initially binds cobinamide reversibly with low affinity (K D = 4.0 μM), followed by the formation of a covalent bond (rate constant of 0.163 s -1), fits the kinetics data of substrate binding and decyanation of the cobalamin precursor cobinamide by BtuM. The covalent binding mode suggests a mechanism not used by any other transport protein.

Original language	English
Number of pages	13
Journal	Structure
Volume	32
Early online date	6-May-2024
DOIs	https://doi.org/10.1016/j.str.2024.04.014
Publication status	Published - 8-Aug-2024

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Cobalamin decyanation by the membrane transporter BtuMFinal publisher's version, 2.23 MBLicence: Taverne

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@article{e25282bdbc0a403bbe34932208dfc003,

title = "Cobalamin decyanation by the membrane transporter BtuM",

abstract = "BtuM is a bacterial cobalamin transporter that binds the transported substrate in the base-off state, with a cysteine residue providing the α-axial coordination of the central cobalt ion via a sulfur-cobalt bond. Binding leads to decyanation of cobalamin variants with a cyano group as the β-axial ligand. Here, we report the crystal structures of untagged BtuM bound to two variants of cobalamin, hydroxycobalamin and cyanocobalamin, and unveil the native residue responsible for the β-axial coordination, His28. This coordination had previously been obscured by non-native histidines of His-tagged BtuM. A model in which BtuM initially binds cobinamide reversibly with low affinity (K D = 4.0 μM), followed by the formation of a covalent bond (rate constant of 0.163 s -1), fits the kinetics data of substrate binding and decyanation of the cobalamin precursor cobinamide by BtuM. The covalent binding mode suggests a mechanism not used by any other transport protein. ",

author = "\{Mart{\'i}nez Felices\}, \{Jose M\} and Barreto, \{Yan Borges\} and Chancievan Thangaratnarajah and Whittaker, \{Jacob J\} and Alencar, \{Adriano M\} and Albert Guskov and Slotboom, \{Dirk J\}",

year = "2024",

month = aug,

day = "8",

doi = "10.1016/j.str.2024.04.014",

language = "English",

volume = "32",

journal = "Structure",

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T1 - Cobalamin decyanation by the membrane transporter BtuM

AU - Martínez Felices, Jose M

AU - Barreto, Yan Borges

AU - Thangaratnarajah, Chancievan

AU - Whittaker, Jacob J

AU - Alencar, Adriano M

AU - Guskov, Albert

AU - Slotboom, Dirk J

PY - 2024/8/8

Y1 - 2024/8/8

N2 - BtuM is a bacterial cobalamin transporter that binds the transported substrate in the base-off state, with a cysteine residue providing the α-axial coordination of the central cobalt ion via a sulfur-cobalt bond. Binding leads to decyanation of cobalamin variants with a cyano group as the β-axial ligand. Here, we report the crystal structures of untagged BtuM bound to two variants of cobalamin, hydroxycobalamin and cyanocobalamin, and unveil the native residue responsible for the β-axial coordination, His28. This coordination had previously been obscured by non-native histidines of His-tagged BtuM. A model in which BtuM initially binds cobinamide reversibly with low affinity (K D = 4.0 μM), followed by the formation of a covalent bond (rate constant of 0.163 s -1), fits the kinetics data of substrate binding and decyanation of the cobalamin precursor cobinamide by BtuM. The covalent binding mode suggests a mechanism not used by any other transport protein.

AB - BtuM is a bacterial cobalamin transporter that binds the transported substrate in the base-off state, with a cysteine residue providing the α-axial coordination of the central cobalt ion via a sulfur-cobalt bond. Binding leads to decyanation of cobalamin variants with a cyano group as the β-axial ligand. Here, we report the crystal structures of untagged BtuM bound to two variants of cobalamin, hydroxycobalamin and cyanocobalamin, and unveil the native residue responsible for the β-axial coordination, His28. This coordination had previously been obscured by non-native histidines of His-tagged BtuM. A model in which BtuM initially binds cobinamide reversibly with low affinity (K D = 4.0 μM), followed by the formation of a covalent bond (rate constant of 0.163 s -1), fits the kinetics data of substrate binding and decyanation of the cobalamin precursor cobinamide by BtuM. The covalent binding mode suggests a mechanism not used by any other transport protein.

U2 - 10.1016/j.str.2024.04.014

DO - 10.1016/j.str.2024.04.014

M3 - Article

C2 - 38733996

SN - 1878-4186

VL - 32

JO - Structure

JF - Structure

ER -

Cobalamin decyanation by the membrane transporter BtuM

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