Influence of a family 29 carbohydrate binding module on the activity of galactose oxidase from Fusarium graminearum

Biochim Biophys Acta. 2016 Feb;1860(2):354-62. doi: 10.1016/j.bbagen.2015.10.023. Epub 2015 Oct 27.

Abstract

Background: Galactose oxidase (GaO) selectively oxidizes the primary hydroxyl of galactose to a carbonyl, facilitating targeted chemical derivatization of galactose-containing polysaccharides, leading to renewable polymers with tailored physical and chemical properties. Here we investigate the impact of a family 29 glucomannan binding module on the activity and binding of GaO towards various polysaccharides. Specifically, CBM29-1-2 from Piromyces equi was separately linked to the N- and C-termini of GaO.

Results: Both GaO-CBM29 and CBM29-GaO were successfully expressed in Pichia pastoris, and demonstrated enhanced binding to galactomannan, galactoglucomannan and galactoxyloglucan. The position of the CBM29 fusion affected the enzyme function. Particularly, C-terminal fusion led to greatest increases in galactomannan binding and catalytic efficiency, where relative to wild-type GaO, kcat/Km values increased by 7.5 and 19.8 times on guar galactomannan and locust bean galactomannan, respectively. The fusion of CBM29 also induced oligomerization of GaO-CBM29.

Major conclusions: Similar to impacts of cellulose-binding modules associated with cellulolytic enzymes, increased substrate binding impeded the action of GaO fusions on more concentrated preparations of galactomannan, galactoglucomannan and galactoxyloglucan; this was especially true for GaO-CBM29. Given the N-terminal positioning of the native galactose-binding CBM32 in GaO, the varying impacts of N-terminal versus C-terminal fusion of CBM29-1-2 may reflect competing action of neighboring CBMs.

General significance: This study thoroughly examines and discusses the effects of CBM fusion to non-lignocellulytic enzymes on soluble polysaccharides. Herein kinetics of GaO on galactose containing polysaccharides is presented for the first time.

Keywords: Carbohydrate binding module; Fusion proteins; Galactoglucomannan; Galactomannan; Galactose oxidase; Galactoxyloglucan.

Publication types

  • Research Support, Non-U.S. Gov't

MeSH terms

  • Amino Acid Sequence
  • Enzyme Stability
  • Fusarium / enzymology*
  • Galactose / chemistry
  • Galactose Oxidase / chemistry
  • Galactose Oxidase / metabolism*
  • Mannans / chemistry*
  • Molecular Sequence Data

Substances

  • Mannans
  • galactoglucomannan
  • galactomannan
  • (1-6)-alpha-glucomannan
  • Galactose Oxidase
  • Galactose