Structural insights into conserved l-arabinose metabolic enzymes reveal the substrate binding site of a thermophilic l-arabinose isomerase

Yong Jik Lee; Sang Jae Lee; Seong Bo Kim; Sang Jun Lee; Sung Haeng Lee; Dong Woo Lee

doi:10.1016/j.febslet.2014.02.023

Structural insights into conserved l-arabinose metabolic enzymes reveal the substrate binding site of a thermophilic l-arabinose isomerase

Yong Jik Lee, Sang Jae Lee, Seong Bo Kim, Sang Jun Lee, Sung Haeng Lee, Dong Woo Lee

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

7 Citations (Scopus)

Abstract

Structural genomics demonstrates that despite low levels of structural similarity of proteins comprising a metabolic pathway, their substrate binding regions are likely to be conserved. Herein based on the 3D-structures of the α/β-fold proteins involved in the ara operon, we attempted to predict the substrate binding residues of thermophilic Geobacillus stearothermophilus l-arabinose isomerase (GSAI) with no 3D-structure available. Comparison of the structures of l-arabinose catabolic enzymes revealed a conserved feature to form the substrate-binding modules, which can be extended to predict the substrate binding site of GSAI (i.e., D195, E261 and E333). Moreover, these data implicated that proteins in the l-arabinose metabolic pathway might retain their substrate binding niches as the modular structure through conserved molecular evolution even with totally different structural scaffolds.

Original language	English
Pages (from-to)	1064-1070
Number of pages	7
Journal	FEBS Letters
Volume	588
Issue number	6
DOIs	https://doi.org/10.1016/j.febslet.2014.02.023
Publication status	Published - 2014 Mar 18

Bibliographical note

Funding Information:
This work was supported by a Grant 311042-05-1-HD120 from the Korea Institute of Planning & Evaluation for Technology (iPET) funded by the Ministry for Food, Agriculture, Forestry and Fisheries to Dr. Dong-Woo Lee, and by research funds from Chosun University (2008) to Dr. Sung Haeng Lee.

All Science Journal Classification (ASJC) codes

Biophysics
Structural Biology
Biochemistry
Molecular Biology
Genetics
Cell Biology

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title = "Structural insights into conserved l-arabinose metabolic enzymes reveal the substrate binding site of a thermophilic l-arabinose isomerase",

abstract = "Structural genomics demonstrates that despite low levels of structural similarity of proteins comprising a metabolic pathway, their substrate binding regions are likely to be conserved. Herein based on the 3D-structures of the α/β-fold proteins involved in the ara operon, we attempted to predict the substrate binding residues of thermophilic Geobacillus stearothermophilus l-arabinose isomerase (GSAI) with no 3D-structure available. Comparison of the structures of l-arabinose catabolic enzymes revealed a conserved feature to form the substrate-binding modules, which can be extended to predict the substrate binding site of GSAI (i.e., D195, E261 and E333). Moreover, these data implicated that proteins in the l-arabinose metabolic pathway might retain their substrate binding niches as the modular structure through conserved molecular evolution even with totally different structural scaffolds.",

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AU - Lee, Sang Jun

AU - Lee, Sung Haeng

AU - Lee, Dong Woo

N1 - Funding Information: This work was supported by a Grant 311042-05-1-HD120 from the Korea Institute of Planning & Evaluation for Technology (iPET) funded by the Ministry for Food, Agriculture, Forestry and Fisheries to Dr. Dong-Woo Lee, and by research funds from Chosun University (2008) to Dr. Sung Haeng Lee.

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N2 - Structural genomics demonstrates that despite low levels of structural similarity of proteins comprising a metabolic pathway, their substrate binding regions are likely to be conserved. Herein based on the 3D-structures of the α/β-fold proteins involved in the ara operon, we attempted to predict the substrate binding residues of thermophilic Geobacillus stearothermophilus l-arabinose isomerase (GSAI) with no 3D-structure available. Comparison of the structures of l-arabinose catabolic enzymes revealed a conserved feature to form the substrate-binding modules, which can be extended to predict the substrate binding site of GSAI (i.e., D195, E261 and E333). Moreover, these data implicated that proteins in the l-arabinose metabolic pathway might retain their substrate binding niches as the modular structure through conserved molecular evolution even with totally different structural scaffolds.

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Structural insights into conserved l-arabinose metabolic enzymes reveal the substrate binding site of a thermophilic l-arabinose isomerase

Abstract

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