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17 results on '"Kabel, Mirjam A"'

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1. Screening of novel fungal Carbohydrate Esterase family 1 enzymes identifies three novel dual feruloyl/acetyl xylan esterases

2. Fungal xylanolytic enzymes: Diversity and applications

3. Evidence for ligninolytic activity of the ascomycete fungus Podospora anserina

4. Colonies of the fungus Aspergillus niger are highly differentiated to adapt to local carbon source variation

5. Functional Validation of Two Fungal Subfamilies in Carbohydrate Esterase Family 1 by Biochemical Characterization of Esterases From Uncharacterized Branches

6. The physiology of Agaricus bisporus in semi-commercial compost cultivation appears to be highly conserved among unrelated isolates

7. Improving ruminal digestibility of various wheat straw types by white-rot fungi

8. Production of α-1,3-L-arabinofuranosidase active on substituted xylan does not improve compost degradation by Agaricus bisporus

9. H2O2 as a candidate bottleneck for MnP activity during cultivation of Agaricus bisporus in compost

10. Occurrence and function of enzymes for lignocellulose degradation in commercial Agaricus bisporus cultivation

11. Fate of lignin and substituted xylan during commercial cultivation of Agaricus bisporus

12. Compost Grown Agaricus bisporus Lacks the Ability to Degrade and Consume Highly Substituted Xylan Fragments

13. Evaluation of fungal degradation of wheat straw cell wall using different analytical methods from ruminant nutrition perspective.

14. Production of α-1,3--arabinofuranosidase active on substituted xylan does not improve compost degradation by Agaricus bisporus.

15. Accumulation of recalcitrant xylan in mushroom-compost is due to a lack of xylan substituent removing enzyme activities of Agaricus bisporus

16. GH10 and GH11 endoxylanases in Penicillium subrubescens: Comparative characterization and synergy with GH51, GH54, GH62 α-L-arabinofuranosidases from the same fungus.

17. Mechanistic insight in the selective delignification of wheat straw by three white-rot fungal species through quantitative 13C-IS py-GC–MS and whole cell wall HSQC NMR.

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