Crystal Structure of HypA, a Nickel-Binding Metallochaperone for [NiFe] Hydrogenase Maturation

Satoshi Watanabe; Takayuki Arai; Rie Matsumi; Haruyuki Atomi; Tadayuki Imanaka; Kunio Miki

doi:10.1016/j.jmb.2009.09.030

Crystal Structure of HypA, a Nickel-Binding Metallochaperone for [NiFe] Hydrogenase Maturation

Satoshi Watanabe, Takayuki Arai, Rie Matsumi, Haruyuki Atomi, Tadayuki Imanaka, Kunio Miki

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

57 Citations (Scopus)

Abstract

HypA is one of the auxiliary proteins involved in the maturation of [NiFe] hydrogenases. By an unknown mechanism, HypA functions as a metallochaperone in the insertion of the Ni atom into hydrogenases. We have determined the crystal structures of HypA from Thermococcus kodakaraensis KOD1 in both monomeric and dimeric states. The structure of the HypA monomer consists of Ni- and Zn-binding domains. The relative arrangement of the two metal-binding domains has been shown to be associated with local conformations of the conserved Ni-binding motif, suggesting a communication between the Ni- and Zn-binding sites. The HypA dimer has been shown to be stabilized by unexpected domain swapping through archaea-specific linker helices. In addition, the hexameric structure of HypA is formed in the crystal packing. Several hydrogen bonds and hydrophobic interactions stabilize the hexamer interface. These findings suggest the functional diversity of HypA proteins.

Original language	English
Pages (from-to)	448-459
Number of pages	12
Journal	Journal of Molecular Biology
Volume	394
Issue number	3
DOIs	https://doi.org/10.1016/j.jmb.2009.09.030
Publication status	Published - 2009 Dec 4
Externally published	Yes

Keywords

HypA
Ni-binding protein
X-ray structure
hydrogenase maturation
metallochaperone

ASJC Scopus subject areas

Structural Biology
Molecular Biology

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10.1016/j.jmb.2009.09.030

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title = "Crystal Structure of HypA, a Nickel-Binding Metallochaperone for [NiFe] Hydrogenase Maturation",

abstract = "HypA is one of the auxiliary proteins involved in the maturation of [NiFe] hydrogenases. By an unknown mechanism, HypA functions as a metallochaperone in the insertion of the Ni atom into hydrogenases. We have determined the crystal structures of HypA from Thermococcus kodakaraensis KOD1 in both monomeric and dimeric states. The structure of the HypA monomer consists of Ni- and Zn-binding domains. The relative arrangement of the two metal-binding domains has been shown to be associated with local conformations of the conserved Ni-binding motif, suggesting a communication between the Ni- and Zn-binding sites. The HypA dimer has been shown to be stabilized by unexpected domain swapping through archaea-specific linker helices. In addition, the hexameric structure of HypA is formed in the crystal packing. Several hydrogen bonds and hydrophobic interactions stabilize the hexamer interface. These findings suggest the functional diversity of HypA proteins.",

keywords = "HypA, Ni-binding protein, X-ray structure, hydrogenase maturation, metallochaperone",

author = "Satoshi Watanabe and Takayuki Arai and Rie Matsumi and Haruyuki Atomi and Tadayuki Imanaka and Kunio Miki",

note = "Funding Information: We thank beamline scientists of SPring-8 and the Photon Factory for their help with X-ray data collection. This work was supported by a grant from the National Project on Protein Structural and Functional Analysis (to K.M. and T.I.) from the Ministry of Education, Culture, Sports, Science and Technology, Japan, by Grants-in-Aid for Creative Scientific Research (18GS0421 to T.I.) and for Scientific Research (A) (20247009 to K.M.) from the Japan Society for the Promotion of Science, and by a grant from the Japan Foundation for Applied Enzymology (to K.M). ",

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AU - Atomi, Haruyuki

AU - Imanaka, Tadayuki

AU - Miki, Kunio

N1 - Funding Information: We thank beamline scientists of SPring-8 and the Photon Factory for their help with X-ray data collection. This work was supported by a grant from the National Project on Protein Structural and Functional Analysis (to K.M. and T.I.) from the Ministry of Education, Culture, Sports, Science and Technology, Japan, by Grants-in-Aid for Creative Scientific Research (18GS0421 to T.I.) and for Scientific Research (A) (20247009 to K.M.) from the Japan Society for the Promotion of Science, and by a grant from the Japan Foundation for Applied Enzymology (to K.M).

PY - 2009/12/4

Y1 - 2009/12/4

N2 - HypA is one of the auxiliary proteins involved in the maturation of [NiFe] hydrogenases. By an unknown mechanism, HypA functions as a metallochaperone in the insertion of the Ni atom into hydrogenases. We have determined the crystal structures of HypA from Thermococcus kodakaraensis KOD1 in both monomeric and dimeric states. The structure of the HypA monomer consists of Ni- and Zn-binding domains. The relative arrangement of the two metal-binding domains has been shown to be associated with local conformations of the conserved Ni-binding motif, suggesting a communication between the Ni- and Zn-binding sites. The HypA dimer has been shown to be stabilized by unexpected domain swapping through archaea-specific linker helices. In addition, the hexameric structure of HypA is formed in the crystal packing. Several hydrogen bonds and hydrophobic interactions stabilize the hexamer interface. These findings suggest the functional diversity of HypA proteins.

AB - HypA is one of the auxiliary proteins involved in the maturation of [NiFe] hydrogenases. By an unknown mechanism, HypA functions as a metallochaperone in the insertion of the Ni atom into hydrogenases. We have determined the crystal structures of HypA from Thermococcus kodakaraensis KOD1 in both monomeric and dimeric states. The structure of the HypA monomer consists of Ni- and Zn-binding domains. The relative arrangement of the two metal-binding domains has been shown to be associated with local conformations of the conserved Ni-binding motif, suggesting a communication between the Ni- and Zn-binding sites. The HypA dimer has been shown to be stabilized by unexpected domain swapping through archaea-specific linker helices. In addition, the hexameric structure of HypA is formed in the crystal packing. Several hydrogen bonds and hydrophobic interactions stabilize the hexamer interface. These findings suggest the functional diversity of HypA proteins.

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KW - hydrogenase maturation

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Crystal Structure of HypA, a Nickel-Binding Metallochaperone for [NiFe] Hydrogenase Maturation

Abstract

Keywords

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