Crystal structure analysis of 3,6-anhydro-L-galactonate cycloisomerase suggests emergence of novel substrate specificity in the enolase superfamily

Saeyoung Lee; Kyoung Heon Kim; Hye Yeon Kim; In Geol Choi

doi:10.1016/j.bbrc.2017.07.080

Crystal structure analysis of 3,6-anhydro-L-galactonate cycloisomerase suggests emergence of novel substrate specificity in the enolase superfamily

Saeyoung Lee, Kyoung Heon Kim, Hye Yeon Kim, In Geol Choi

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

1 Citation (Scopus)

Abstract

3,6-Anydro-L-galatonate cycloisomerase (ACI) catalyzes the cycloisomerization of a 3,6-anhydro-L-galactonic acid known as a novel metabolite in agarolytic bacteria. Here, we present 3-D structures of ACI from Vibrio sp. strain EJY3 (VejACI) in native and mutant forms at 2.2 Å and 2.6 Å resolutions, respectively. The enzyme belongs to the mandelate racemase subgroup of the enolase superfamily catalyzing common β-elimination reactions by α-carbon deprotonation of substrates. The structure of VejACI revealed a notable 20s loop region in the capping domain, which can be a highly conserved structural motif in ACI homologs of agar metabolism. By comparing mutant (mVejAC/H300 N) and native VejACI structures, we identified a conformational change of Ile142 in VejACI that causes spatial expansion in the binding pocket. These observations imply that Ile142 and the 20s loop play important roles in enzymatic reactivity and substrate specificity. The structural phylogenetic analysis of the enolase superfamily including ACIs revealed sequential, structural, and functional relationships related to the emergence of novel substrate specificity.

Original language	English
Pages (from-to)	217-222
Number of pages	6
Journal	Biochemical and biophysical research communications
Volume	491
Issue number	1
DOIs	https://doi.org/10.1016/j.bbrc.2017.07.080
Publication status	Published - 2017 Sept 9

Bibliographical note

Funding Information:
We thank the beamline staff at the PAL (Pohang, South Korea) for assistance with X-ray data collection. This work was supported by Institute of Life Science and Natural Resources at Korea University and grants from the Ministry of Trade, Industry and Energy (10052721), the Korea Basic Science Institute (T37412, C37969), and the National Research Council of Science & Technology (NST) (CRC-16-01-KRICT).

Keywords

20s loop
3,6-Anhydro-L-galactonate
3,6-Anydro-L-galatonate cycloisomerase
Agar metabolism
Enolase superfamily

ASJC Scopus subject areas

Biophysics
Biochemistry
Molecular Biology
Cell Biology

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Crystal structure analysis of 3,6-anhydro-L-galactonate cycloisomerase suggests emergence of novel substrate specificity in the enolase superfamily. / Lee, Saeyoung; Kim, Kyoung Heon; Kim, Hye Yeon et al.
In: Biochemical and biophysical research communications, Vol. 491, No. 1, 09.09.2017, p. 217-222.

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

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title = "Crystal structure analysis of 3,6-anhydro-L-galactonate cycloisomerase suggests emergence of novel substrate specificity in the enolase superfamily",

abstract = "3,6-Anydro-L-galatonate cycloisomerase (ACI) catalyzes the cycloisomerization of a 3,6-anhydro-L-galactonic acid known as a novel metabolite in agarolytic bacteria. Here, we present 3-D structures of ACI from Vibrio sp. strain EJY3 (VejACI) in native and mutant forms at 2.2 {\AA} and 2.6 {\AA} resolutions, respectively. The enzyme belongs to the mandelate racemase subgroup of the enolase superfamily catalyzing common β-elimination reactions by α-carbon deprotonation of substrates. The structure of VejACI revealed a notable 20s loop region in the capping domain, which can be a highly conserved structural motif in ACI homologs of agar metabolism. By comparing mutant (mVejAC/H300 N) and native VejACI structures, we identified a conformational change of Ile142 in VejACI that causes spatial expansion in the binding pocket. These observations imply that Ile142 and the 20s loop play important roles in enzymatic reactivity and substrate specificity. The structural phylogenetic analysis of the enolase superfamily including ACIs revealed sequential, structural, and functional relationships related to the emergence of novel substrate specificity.",

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note = "Funding Information: We thank the beamline staff at the PAL (Pohang, South Korea) for assistance with X-ray data collection. This work was supported by Institute of Life Science and Natural Resources at Korea University and grants from the Ministry of Trade, Industry and Energy (10052721), the Korea Basic Science Institute (T37412, C37969), and the National Research Council of Science & Technology (NST) (CRC-16-01-KRICT).",

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N1 - Funding Information: We thank the beamline staff at the PAL (Pohang, South Korea) for assistance with X-ray data collection. This work was supported by Institute of Life Science and Natural Resources at Korea University and grants from the Ministry of Trade, Industry and Energy (10052721), the Korea Basic Science Institute (T37412, C37969), and the National Research Council of Science & Technology (NST) (CRC-16-01-KRICT).

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AB - 3,6-Anydro-L-galatonate cycloisomerase (ACI) catalyzes the cycloisomerization of a 3,6-anhydro-L-galactonic acid known as a novel metabolite in agarolytic bacteria. Here, we present 3-D structures of ACI from Vibrio sp. strain EJY3 (VejACI) in native and mutant forms at 2.2 Å and 2.6 Å resolutions, respectively. The enzyme belongs to the mandelate racemase subgroup of the enolase superfamily catalyzing common β-elimination reactions by α-carbon deprotonation of substrates. The structure of VejACI revealed a notable 20s loop region in the capping domain, which can be a highly conserved structural motif in ACI homologs of agar metabolism. By comparing mutant (mVejAC/H300 N) and native VejACI structures, we identified a conformational change of Ile142 in VejACI that causes spatial expansion in the binding pocket. These observations imply that Ile142 and the 20s loop play important roles in enzymatic reactivity and substrate specificity. The structural phylogenetic analysis of the enolase superfamily including ACIs revealed sequential, structural, and functional relationships related to the emergence of novel substrate specificity.

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Crystal structure analysis of 3,6-anhydro-L-galactonate cycloisomerase suggests emergence of novel substrate specificity in the enolase superfamily

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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