Ingeborg Stals

Overview

Explore the profile of Ingeborg Stals including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 17

Citations 329

Followers 0

Related Specialties

Biochemistry

Science

General Medicine

Top 10 Co-Authors

Bart Devreese

Marc Claeyssens

Koen Sandra

Mats Sandgren

Tom Desmet

Jozef Van Beeumen

Barbara Danneels

Saeid Karkehabadi

Magali Tanghe

Ronnie G Willaert

Published In

PLoS One

Glycobiology

J Biol Chem

Anal Chem

Eukaryot Cell

Affiliations

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Recent Articles

Analysis of the substrate specificity of α-L-arabinofuranosidases by DNA sequencer-aided fluorophore-assisted carbohydrate electrophoresis

da Fonseca M, Jurak E, Kataja K, Master E, Berrin J, Stals I, et al.

Appl Microbiol Biotechnol . 2018 Sep; 102(23):10091-10102. PMID: 30267127

Carbohydrate-active enzyme discovery is often not accompanied by experimental validation, demonstrating the need for techniques to analyze substrate specificities of carbohydrate-active enzymes in an efficient manner. DNA sequencer-aided fluorophore-assisted carbohydrate...

A quantitative indicator diagram for lytic polysaccharide monooxygenases reveals the role of aromatic surface residues in HjLPMO9A regioselectivity

Danneels B, Tanghe M, Joosten H, Gundinger T, Spadiut O, Stals I, et al.

PLoS One . 2017 Jun; 12(5):e0178446. PMID: 28562644

Lytic polysaccharide monooxygenases (LPMOs) have changed our understanding of lignocellulosic degradation dramatically over the last years. These metalloproteins catalyze oxidative cleavage of recalcitrant polysaccharides and can act on the C1...

Disulfide bridges as essential elements for the thermostability of lytic polysaccharide monooxygenase LPMO10C from Streptomyces coelicolor

Tanghe M, Danneels B, Last M, Beerens K, Stals I, Desmet T

Protein Eng Des Sel . 2017 Mar; 30(5):401-408. PMID: 28338903

Lytic polysaccharide monooxygenases (LPMOs) are crucial components of cellulase mixtures but their stability has not yet been studied in detail, let alone been engineered for industrial applications. In this work,...

Structural and functional studies of the glycoside hydrolase family 3 β-glucosidase Cel3A from the moderately thermophilic fungus Rasamsonia emersonii

Gudmundsson M, Hansson H, Karkehabadi S, Larsson A, Stals I, Kim S, et al.

Acta Crystallogr D Struct Biol . 2016 Jul; 72(Pt 7):860-70. PMID: 27377383

The filamentous fungus Hypocrea jecorina produces a number of cellulases and hemicellulases that act in a concerted fashion on biomass and degrade it into monomeric or oligomeric sugars. β-Glucosidases are...

Recombinant Expression of Trichoderma reesei Cel61A in Pichia pastoris: Optimizing Yield and N-terminal Processing

Tanghe M, Danneels B, Camattari A, Glieder A, Vandenberghe I, Devreese B, et al.

Mol Biotechnol . 2015 Aug; 57(11-12):1010-7. PMID: 26285758

The auxiliary activity family 9 (AA9, formerly GH61) harbors a recently discovered group of oxidative enzymes that boost cellulose degradation. Indeed, these lytic polysaccharide monooxygenases (LPMOs) are able to disrupt...

Molecular mechanism of flocculation self-recognition in yeast and its role in mating and survival

Goossens K, Ielasi F, Nookaew I, Stals I, Alonso-Sarduy L, Daenen L, et al.

mBio . 2015 Apr; 6(2). PMID: 25873380

Unlabelled: We studied the flocculation mechanism at the molecular level by determining the atomic structures of N-Flo1p and N-Lg-Flo1p in complex with their ligands. We show that they have similar...

The crystal structure of the core domain of a cellulose induced protein (Cip1) from Hypocrea jecorina, at 1.5 Å resolution

Jacobson F, Karkehabadi S, Hansson H, Goedegebuur F, Wallace L, Mitchinson C, et al.

PLoS One . 2013 Sep; 8(9):e70562. PMID: 24039705

In an effort to characterise the whole transcriptome of the fungus Hypocrea jecorina, cDNA clones of this fungus were identified that encode for previously unknown proteins that are likely to...

Glycosylated linkers in multimodular lignocellulose-degrading enzymes dynamically bind to cellulose

Payne C, Resch M, Chen L, Crowley M, Himmel M, Taylor 2nd L, et al.

Proc Natl Acad Sci U S A . 2013 Aug; 110(36):14646-51. PMID: 23959893

Plant cell-wall polysaccharides represent a vast source of food in nature. To depolymerize polysaccharides to soluble sugars, many organisms use multifunctional enzyme mixtures consisting of glycoside hydrolases, lytic polysaccharide mono-oxygenases,...

High resolution crystal structure of the endo-N-Acetyl-β-D-glucosaminidase responsible for the deglycosylation of Hypocrea jecorina cellulases

Stals I, Karkehabadi S, Kim S, Ward M, Van Landschoot A, Devreese B, et al.

PLoS One . 2012 Aug; 7(7):e40854. PMID: 22859955

Endo-N-acetyl-β-D-glucosaminidases (ENGases) hydrolyze the glycosidic linkage between the two N-acetylglucosamine units that make up the chitobiose core of N-glycans. The endo-N-acetyl-β-D-glucosaminidases classified into glycoside hydrolase family 18 are small, bacterial...

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The N-terminal domain of the Flo1 flocculation protein from Saccharomyces cerevisiae binds specifically to mannose carbohydrates

Goossens K, Stassen C, Stals I, Donohue D, Devreese B, De Greve H, et al.

Eukaryot Cell . 2010 Nov; 10(1):110-7. PMID: 21076009

Saccharomyces cerevisiae cells possess a remarkable capacity to adhere to other yeast cells, which is called flocculation. Flocculation is defined as the phenomenon wherein yeast cells adhere in clumps and...