Department of Applied Chemistry, Aichi Institute of Technology, Yakusa-cho, Toyota, Japan.
Colloids Surf B Biointerfaces. 2013 Jan 1;101:26-33. doi: 10.1016/j.colsurfb.2012.05.037. Epub 2012 Jun 23.
Formaldehyde dehydrogenase (FDH, molecular size of 8.6 nm × 8.6 nm × 19.0 nm) was immobilized on seven types of mesoporous silica (MPS), whose pores were from 2.4 to 31.2 nm sized, and their catalytic activities were evaluated by oxidation of formaldehyde. Among MPSs, FDH immobilized on MPS-4 (pore size of 12.3 nm) showed the best catalytic activity. Enhancement of catalytic activity was obtained by immobilizing onto MPS, whose pore (mesopore) size was similar to the molecular size of FDH. In addition, FDH was immobilized on five types of organo-functionalized MPS-4. Results from assays of enzyme activity showed that FDH immobilized on phenyl-functionalized MPS-4 (MPS-4-Ph) had higher activity than FDH immobilized on non-functionalized one. Immobilized FDH on MPS-4-Ph was active for low formaldehyde concentration form 6.0 μM and more sensitive than conventional formaldehyde detectors. Stability of FDH activity was also evaluated under the various conditions, in which protein denaturation could occur by solvent treatment, such as methanol or sodium dodecyl sulfate. As a result, FDH stability was strongly improved by the immobilization on MPS materials. Further investigation using tryptophan fluorescence and circular dichroism (CD) indicated that the high-order structure of the FDH did not alter upon binding to the non-functionalized MPS surface. On the other hand, FDH immobilized on functionalized-MPS was changed by hydrophobic interaction or covalent binding. Consequently, substrate affinity was improved by the change in the structure of FDH and then the orientation of the active site.
甲醛脱氢酶(FDH,分子大小为 8.6nm×8.6nm×19.0nm)固定在七种介孔硅(MPS)上,其孔径为 2.4 至 31.2nm,通过甲醛氧化来评估其催化活性。在 MPS 中,固定在 MPS-4(孔径 12.3nm)上的 FDH 表现出最佳的催化活性。通过固定在孔径与 FDH 分子大小相似的 MPS 上,可提高催化活性。此外,将 FDH 固定在五种官能化的 MPS-4 上。酶活性测定结果表明,固定在苯官能化 MPS-4(MPS-4-Ph)上的 FDH 比固定在非官能化 MPS-4 上的 FDH 具有更高的活性。固定在 MPS-4-Ph 上的 FDH 对 6.0μM 以下的低浓度甲醛具有活性,比传统的甲醛检测器更灵敏。还在各种条件下评估了 FDH 活性的稳定性,其中溶剂处理(如甲醇或十二烷基硫酸钠)可能导致蛋白质变性。结果表明,通过固定在 MPS 材料上可以大大提高 FDH 的稳定性。使用色氨酸荧光和圆二色性(CD)进一步研究表明,FDH 的高级结构在与非官能化 MPS 表面结合时不会改变。另一方面,固定在功能化-MPS 上的 FDH 会发生疏水相互作用或共价结合的改变。因此,通过 FDH 结构的改变和活性位点的定向,提高了底物亲和力。
