PACER: a novel 3D plant cell wall model for the analysis of non-catalytic and enzymatic responses

  • Mareike Monschein (Creator)
  • Edita Jurak (University Medical Center Groningen) (Creator)
  • Tanja Paasela (University of Helsinki) (Creator)
  • Taru Koitto (Creator)
  • Vera Lambauer (Creator)
  • Mirko Pavicic (Creator)
  • Thomas Enjalbert (Creator)
  • Claire Dumon (Creator)
  • Emma Master (Creator)

Dataset

Description

Additional file 1: Figure S1. Impact of loosenin-like proteins on NpXyn11A hydrolysis of azo-xylan in solution. Figure S2. Impact of loosenin-like proteins on cellulose/azo-xylan composites. Figure S3. In-solution hydrolysis of azo-xylan by Pm25 and its mutants. Figure S4. SDS-PAGE analysis of CmXyn10B (lane 2), NpXyn11A (lane 3) and TfXyn11A (lane 4). Figure S5. Replicate cellulose/azo-xylan composites after treatment for 1-h with (A) NpXyn11A or (B) TfXyn11A.
Date made available17 Mar 2022
Publisherfigshare

Dataset Licences

  • CC-BY-4.0
  • BHIVE: Bio-derived HIgh Value polymers through novel Enzyme function

    Mollerup, F. (Project Member), Jurak, E. (Project Member), Aumala, V. (Project Member), Karppi, J. (Project Member), Virtanen, S. (Project Member), Littunen, K. (Project Member), Mai-Gisondi, G. (Project Member), Monschein, M. (Project Member), Pohto, A. (Project Member), Dahiya, D. (Project Member), Leamon, A. K. M. A. A. (Project Member) & Master, E. (Principal investigator)

    01/09/201531/12/2020

    Project: EU: ERC grants

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