The α- and β-Subunit Boundary at the Stem of the Mushroom-Like α(3)β(3)-Type Oxygenase Component of Rieske Non-Heme Iron Oxygenases Is the Rieske-Type Ferredoxin-Binding Site

Cumene dioxygenase (CumDO) is an initial enzyme in the cumene degradation pathway of Pseudomonas fluorescens IP01 and is a Rieske non-heme iron oxygenase (RO) that comprises two electron transfer components (reductase [CumDO-R] and Rieske-type ferredoxin [CumDO-F]) and one catalytic component (α(3)β...

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Autores principales: Tsai, Pi-Cheng, Chakraborty, Joydeep, Suzuki-Minakuchi, Chiho, Terada, Tohru, Kotake, Tatsurou, Matsuzawa, Jun, Okada, Kazunori, Nojiri, Hideaki
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Microbiology 2022
Materias:
Enzymology and Protein Engineering
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9361823/
https://www.ncbi.nlm.nih.gov/pubmed/35862661
http://dx.doi.org/10.1128/aem.00835-22
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author Tsai, Pi-Cheng
Chakraborty, Joydeep
Suzuki-Minakuchi, Chiho
Terada, Tohru
Kotake, Tatsurou
Matsuzawa, Jun
Okada, Kazunori
Nojiri, Hideaki
author_facet Tsai, Pi-Cheng
Chakraborty, Joydeep
Suzuki-Minakuchi, Chiho
Terada, Tohru
Kotake, Tatsurou
Matsuzawa, Jun
Okada, Kazunori
Nojiri, Hideaki
author_sort Tsai, Pi-Cheng
collection PubMed
description Cumene dioxygenase (CumDO) is an initial enzyme in the cumene degradation pathway of Pseudomonas fluorescens IP01 and is a Rieske non-heme iron oxygenase (RO) that comprises two electron transfer components (reductase [CumDO-R] and Rieske-type ferredoxin [CumDO-F]) and one catalytic component (α(3)β(3)-type oxygenase [CumDO-O]). Catalysis is triggered by electrons that are transferred from NAD(P)H to CumDO-O by CumDO-R and CumDO-F. To investigate the binding mode between CumDO-F and CumDO-O and to identify the key CumDO-O amino acid residues for binding, we simulated docking between the CumDO-O crystal structure and predicted model of CumDO-F and identified two potential binding sites: one is at the side-wise site and the other is at the top-wise site in mushroom-like CumDO-O. Then, we performed alanine mutagenesis of 16 surface amino acid residues at two potential binding sites. The results of reduction efficiency analyses using the purified components indicated that CumDO-F bound at the side-wise site of CumDO-O, and K117 of the α-subunit and R65 of the β-subunit were critical for the interaction. Moreover, these two positively charged residues are well conserved in α(3)β(3)-type oxygenase components of ROs whose electron donors are Rieske-type ferredoxins. Given that these residues were not conserved if the electron donors were different types of ferredoxins or reductases, the side-wise site of the mushroom-like structure is thought to be the common binding site between Rieske-type ferredoxin and α(3)β(3)-type oxygenase components in ROs. IMPORTANCE We clarified the critical amino acid residues of the oxygenase component (Oxy) of Rieske non-heme iron oxygenase (RO) for binding with Rieske-type ferredoxin (Fd). Our results showed that Rieske-type Fd-binding site is commonly located at the stem (side-wise site) of the mushroom-like α(3)β(3) quaternary structure in many ROs. The resultant binding site was totally different from those reported at the top-wise site of the doughnut-like α(3)-type Oxy, although α(3)-type Oxys correspond to the cap (α(3) subunit part) of the mushroom-like α(3)β(3)-type Oxys. Critical amino acid residues detected in this study were not conserved if the electron donors of Oxys were different types of Fds or reductases. Altogether, we can suggest that unique binding modes between Oxys and electron donors have evolved, depending on the nature of the electron donors, despite Oxy molecules having shared α(3)β(3) quaternary structures.
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spelling pubmed-93618232022-08-10 The α- and β-Subunit Boundary at the Stem of the Mushroom-Like α(3)β(3)-Type Oxygenase Component of Rieske Non-Heme Iron Oxygenases Is the Rieske-Type Ferredoxin-Binding Site Tsai, Pi-Cheng Chakraborty, Joydeep Suzuki-Minakuchi, Chiho Terada, Tohru Kotake, Tatsurou Matsuzawa, Jun Okada, Kazunori Nojiri, Hideaki Appl Environ Microbiol Enzymology and Protein Engineering Cumene dioxygenase (CumDO) is an initial enzyme in the cumene degradation pathway of Pseudomonas fluorescens IP01 and is a Rieske non-heme iron oxygenase (RO) that comprises two electron transfer components (reductase [CumDO-R] and Rieske-type ferredoxin [CumDO-F]) and one catalytic component (α(3)β(3)-type oxygenase [CumDO-O]). Catalysis is triggered by electrons that are transferred from NAD(P)H to CumDO-O by CumDO-R and CumDO-F. To investigate the binding mode between CumDO-F and CumDO-O and to identify the key CumDO-O amino acid residues for binding, we simulated docking between the CumDO-O crystal structure and predicted model of CumDO-F and identified two potential binding sites: one is at the side-wise site and the other is at the top-wise site in mushroom-like CumDO-O. Then, we performed alanine mutagenesis of 16 surface amino acid residues at two potential binding sites. The results of reduction efficiency analyses using the purified components indicated that CumDO-F bound at the side-wise site of CumDO-O, and K117 of the α-subunit and R65 of the β-subunit were critical for the interaction. Moreover, these two positively charged residues are well conserved in α(3)β(3)-type oxygenase components of ROs whose electron donors are Rieske-type ferredoxins. Given that these residues were not conserved if the electron donors were different types of ferredoxins or reductases, the side-wise site of the mushroom-like structure is thought to be the common binding site between Rieske-type ferredoxin and α(3)β(3)-type oxygenase components in ROs. IMPORTANCE We clarified the critical amino acid residues of the oxygenase component (Oxy) of Rieske non-heme iron oxygenase (RO) for binding with Rieske-type ferredoxin (Fd). Our results showed that Rieske-type Fd-binding site is commonly located at the stem (side-wise site) of the mushroom-like α(3)β(3) quaternary structure in many ROs. The resultant binding site was totally different from those reported at the top-wise site of the doughnut-like α(3)-type Oxy, although α(3)-type Oxys correspond to the cap (α(3) subunit part) of the mushroom-like α(3)β(3)-type Oxys. Critical amino acid residues detected in this study were not conserved if the electron donors of Oxys were different types of Fds or reductases. Altogether, we can suggest that unique binding modes between Oxys and electron donors have evolved, depending on the nature of the electron donors, despite Oxy molecules having shared α(3)β(3) quaternary structures. American Society for Microbiology 2022-07-13 /pmc/articles/PMC9361823/ /pubmed/35862661 http://dx.doi.org/10.1128/aem.00835-22 Text en Copyright © 2022 Tsai et al. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution 4.0 International license (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Enzymology and Protein Engineering
Tsai, Pi-Cheng
Chakraborty, Joydeep
Suzuki-Minakuchi, Chiho
Terada, Tohru
Kotake, Tatsurou
Matsuzawa, Jun
Okada, Kazunori
Nojiri, Hideaki
The α- and β-Subunit Boundary at the Stem of the Mushroom-Like α(3)β(3)-Type Oxygenase Component of Rieske Non-Heme Iron Oxygenases Is the Rieske-Type Ferredoxin-Binding Site
title The α- and β-Subunit Boundary at the Stem of the Mushroom-Like α(3)β(3)-Type Oxygenase Component of Rieske Non-Heme Iron Oxygenases Is the Rieske-Type Ferredoxin-Binding Site
title_full The α- and β-Subunit Boundary at the Stem of the Mushroom-Like α(3)β(3)-Type Oxygenase Component of Rieske Non-Heme Iron Oxygenases Is the Rieske-Type Ferredoxin-Binding Site
title_fullStr The α- and β-Subunit Boundary at the Stem of the Mushroom-Like α(3)β(3)-Type Oxygenase Component of Rieske Non-Heme Iron Oxygenases Is the Rieske-Type Ferredoxin-Binding Site
title_full_unstemmed The α- and β-Subunit Boundary at the Stem of the Mushroom-Like α(3)β(3)-Type Oxygenase Component of Rieske Non-Heme Iron Oxygenases Is the Rieske-Type Ferredoxin-Binding Site
title_short The α- and β-Subunit Boundary at the Stem of the Mushroom-Like α(3)β(3)-Type Oxygenase Component of Rieske Non-Heme Iron Oxygenases Is the Rieske-Type Ferredoxin-Binding Site
title_sort α- and β-subunit boundary at the stem of the mushroom-like α(3)β(3)-type oxygenase component of rieske non-heme iron oxygenases is the rieske-type ferredoxin-binding site
topic Enzymology and Protein Engineering
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9361823/
https://www.ncbi.nlm.nih.gov/pubmed/35862661
http://dx.doi.org/10.1128/aem.00835-22
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