Ni(II)-binding affinity of CcNikZ-II and its homologs: the role of the HH-prong and variable loop revealed by structural and mutational studies

Patrick Diep; Peter J Stogios; Elena Evdokimova; Alexei Savchenko; Radhakrishnan Mahadevan; Alexander F Yakunin

doi:10.1111/febs.17125

Ni(II)-binding affinity of CcNikZ-II and its homologs: the role of the HH-prong and variable loop revealed by structural and mutational studies

Patrick Diep, Peter J Stogios, Elena Evdokimova, Alexei Savchenko, Radhakrishnan Mahadevan, Alexander F Yakunin

School of Environmental & Natural Sciences

University of Toronto

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

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Abstract

Extracytoplasmic Ni(II)-binding proteins (NiBPs) are molecular shuttles involved in cellular nickel uptake. Here, we determined the crystal structure of apo CcNikZ-II at 2.38 Å, which revealed a Ni(II)-binding site comprised of the double His (HH-)prong (His511, His512) and a short variable (v-)loop nearby (Thr59-Thr64, TEDKYT). Mutagenesis of the site identified Glu60 and His511 as critical for high affinity Ni(II)-binding. Phylogenetic analysis showed 15 protein clusters with two groups containing the HH-prong. Metal-binding assays with 11 purified NiBPs containing this feature yielded higher Ni(II)-binding affinities. Replacement of the wild type v-loop with those from other NiBPs improved the affinity by up to an order of magnitude. This work provides molecular insights into the determinants for Ni(II) affinity and paves way for NiBP engineering.

Original language	English
Pages (from-to)	2980-2993
Number of pages	14
Journal	Febs Journal
Volume	291
Issue number	13
Early online date	31 Mar 2024
DOIs	https://doi.org/10.1111/febs.17125
Publication status	Published - Jul 2024

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The FEBS Journal - 2024 - Diep - Ni II ‐binding affinity of CcNikZ‐II and its homologs the role of the HH‐prong andFinal published version, 5.05 MBLicence: CC BY

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title = "Ni(II)-binding affinity of CcNikZ-II and its homologs: the role of the HH-prong and variable loop revealed by structural and mutational studies",

abstract = "Extracytoplasmic Ni(II)-binding proteins (NiBPs) are molecular shuttles involved in cellular nickel uptake. Here, we determined the crystal structure of apo CcNikZ-II at 2.38 {\AA}, which revealed a Ni(II)-binding site comprised of the double His (HH-)prong (His511, His512) and a short variable (v-)loop nearby (Thr59-Thr64, TEDKYT). Mutagenesis of the site identified Glu60 and His511 as critical for high affinity Ni(II)-binding. Phylogenetic analysis showed 15 protein clusters with two groups containing the HH-prong. Metal-binding assays with 11 purified NiBPs containing this feature yielded higher Ni(II)-binding affinities. Replacement of the wild type v-loop with those from other NiBPs improved the affinity by up to an order of magnitude. This work provides molecular insights into the determinants for Ni(II) affinity and paves way for NiBP engineering.",

author = "Patrick Diep and Stogios, \{Peter J\} and Elena Evdokimova and Alexei Savchenko and Radhakrishnan Mahadevan and Yakunin, \{Alexander F\}",

note = "{\textcopyright} 2024 The Authors. The FEBS Journal published by John Wiley \& Sons Ltd on behalf of Federation of European Biochemical Societies.",

year = "2024",

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doi = "10.1111/febs.17125",

language = "English",

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pages = "2980--2993",

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T1 - Ni(II)-binding affinity of CcNikZ-II and its homologs

T2 - the role of the HH-prong and variable loop revealed by structural and mutational studies

AU - Diep, Patrick

AU - Stogios, Peter J

AU - Evdokimova, Elena

AU - Savchenko, Alexei

AU - Mahadevan, Radhakrishnan

AU - Yakunin, Alexander F

PY - 2024/7

Y1 - 2024/7

N2 - Extracytoplasmic Ni(II)-binding proteins (NiBPs) are molecular shuttles involved in cellular nickel uptake. Here, we determined the crystal structure of apo CcNikZ-II at 2.38 Å, which revealed a Ni(II)-binding site comprised of the double His (HH-)prong (His511, His512) and a short variable (v-)loop nearby (Thr59-Thr64, TEDKYT). Mutagenesis of the site identified Glu60 and His511 as critical for high affinity Ni(II)-binding. Phylogenetic analysis showed 15 protein clusters with two groups containing the HH-prong. Metal-binding assays with 11 purified NiBPs containing this feature yielded higher Ni(II)-binding affinities. Replacement of the wild type v-loop with those from other NiBPs improved the affinity by up to an order of magnitude. This work provides molecular insights into the determinants for Ni(II) affinity and paves way for NiBP engineering.

AB - Extracytoplasmic Ni(II)-binding proteins (NiBPs) are molecular shuttles involved in cellular nickel uptake. Here, we determined the crystal structure of apo CcNikZ-II at 2.38 Å, which revealed a Ni(II)-binding site comprised of the double His (HH-)prong (His511, His512) and a short variable (v-)loop nearby (Thr59-Thr64, TEDKYT). Mutagenesis of the site identified Glu60 and His511 as critical for high affinity Ni(II)-binding. Phylogenetic analysis showed 15 protein clusters with two groups containing the HH-prong. Metal-binding assays with 11 purified NiBPs containing this feature yielded higher Ni(II)-binding affinities. Replacement of the wild type v-loop with those from other NiBPs improved the affinity by up to an order of magnitude. This work provides molecular insights into the determinants for Ni(II) affinity and paves way for NiBP engineering.

U2 - 10.1111/febs.17125

DO - 10.1111/febs.17125

M3 - Article

C2 - 38555564

SN - 1742-464X

VL - 291

SP - 2980

EP - 2993

JO - Febs Journal

JF - Febs Journal

IS - 13

ER -

Ni(II)-binding affinity of CcNikZ-II and its homologs: the role of the HH-prong and variable loop revealed by structural and mutational studies

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