Litcius/Paper detail

Fungal loosenin-like proteins boost the cellulolytic enzyme conversion of pretreated wood fiber and cellulosic pulps

Deepika Dahiya, Taru Koitto, Kim Kutvonen, Yan Wang, Majid Haddad Momeni, Siiri de Ruijter, Emma R. Master

2023Bioresource Technology15 citationsDOIOpen Access PDF

Abstract

Microbial expansin-related proteins, including loosenins, can disrupt cellulose networks and increase enzyme accessibility to cellulosic substrates. Herein, four loosenins from Phanerochaete carnosa (PcaLOOLs), and a PcaLOOL fused to a family 63 carbohydrate-binding module, were compared for ability to boost the cellulolytic deconstruction of steam pretreated softwood (SSW) and kraft pulps from softwood (ND-BSKP) and hardwood (ND-BHKP). Amending the Cellic® CTec-2 cellulase cocktail with PcaLOOLs increased reducing products from SSW by up to 40 %, corresponding to 28 % higher glucose yield. Amending Cellic® CTec-2 with PcaLOOLs also increased the release of glucose from ND-BSKP and ND-BHKP by 82 % and 28 %, respectively. Xylose release from ND-BSKP and ND-BHKP increased by 47 % and 57 %, respectively, highlighting the potential of PcaLOOLs to enhance hemicellulose recovery. Scanning electron microscopy and fiber image analysis revealed fibrillation and curlation of ND-BSKP after PcaLOOL treatment, consistent with increasing enzyme accessibility to targeted substrates.

Topics & Concepts

CellulaseHemicelluloseSoftwoodCellulosic ethanolChemistryCelluloseXyloseHardwoodBiochemistryFood scienceBotanyBiologyFermentationBiofuel production and bioconversionAdvanced Cellulose Research StudiesPolysaccharides and Plant Cell Walls