Takashi Suetomi scite author profile

Takashi Suetomi

3Publications

51Citation Statements Received

131Citation Statements Given

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117

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Kyoto University, University of Shiga Prefecture

Publications

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NMR Analysis on Molecular Interaction of Lignin with Amino Acid Residues of Carbohydrate-Binding Module from Trichoderma reesei Cel7A

Tokunaga

Nagata

Suetomi

et al. 2019

Sci Rep

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Lignocellulosic biomass is anticipated to serve as a platform for green chemicals and fuels. Nonproductive binding of lignin to cellulolytic enzymes should be avoided for conversion of lignocellulose through enzymatic saccharification. Although carbohydrate-binding modules (CBMs) of cellulolytic enzymes strongly bind to lignin, the adsorption mechanism at molecular level is still unclear. Here, we report NMR-based analyses of binding sites on CBM1 of cellobiohydrolase I (Cel7A) from a hyper-cellulase-producing fungus, Trichoderma reesei, with cellohexaose and lignins from Japanese cedar (C-MWL) and Eucalyptus globulus (E-MWL). A method was established to obtain properly folded TrCBM1. Only TrCBM1 that was expressed in freshly transformed E. coli had intact conformation. Chemical shift perturbation analyses revealed that TrCBM1 adsorbed cellohexaose in highly specific manner via two subsites, flat plane surface and cleft, which were located on the opposite side of the protein surface. Importantly, MWLs were adsorbed at multiple binding sites, including the subsites, having higher affinity than cellohexaose. G6 and Q7 were involved in lignin binding on the flat plane surface of TrCBM1, while cellohexaose preferentially interacted with N29 and Q34. TrCBM1 used much larger surface area to bind with C-MWL than E-MWL, indicating the mechanisms of adsorption toward hardwood and softwood lignins are different.

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Effects of calmodulin on expression of lignin-modifying enzymes in Pleurotus ostreatus

et al. 2014

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Previously, we suppressed the expression of genes encoding isozymes of lignin peroxidase (LiP) and manganese peroxidase (MnP) using a calmodulin (CaM) inhibitor, W7, in the white-rot fungus Phanerochaete chrysosporium; this suggested that CaM positively regulates their expression. Here, we studied the role of CaM in another white-rot fungus, Pleurotus ostreatus, which produces MnP and versatile peroxidase (VP), but not LiP. W7 upregulated Mn(2+)-dependent oxidation of guaiacol, suggesting that CaM negatively regulates the production of the enzymes. Suppression of CaM in P. ostreatus using RNAi also led to upregulation of enzyme activity, whereas overexpression of CaM in P. ostreatus caused downregulation. Real-time RT-PCR showed that MnP1-6 and VP3 levels in the CaM-knockdown strain were higher than those in the wild-type strain, while MnP-5 and -6 and VP1 and 2 levels in the CaM-overexpressing strain were lower than in the wild type. Moreover, we also found that another ligninolytic enzyme, laccase, which is not produced by P. chrysosporium, was negatively regulated by CaM in P. ostreatus similar to MnP and VP. Although overexpression of CaM did not reduce the ability of P. ostreatus to digest beech wood powder, the percentage of lignin remaining in the digest was slightly higher than in the wild-type strain digest.

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Erratum to: Effects of calmodulin on expression of lignin-modifying enzymes in Pleurotus ostreatus

et al. 2015

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Takashi Suetomi

NMR Analysis on Molecular Interaction of Lignin with Amino Acid Residues of Carbohydrate-Binding Module from Trichoderma reesei Cel7A

Effects of calmodulin on expression of lignin-modifying enzymes in Pleurotus ostreatus

Erratum to: Effects of calmodulin on expression of lignin-modifying enzymes in Pleurotus ostreatus

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