Dieter Schouppe scite author profile

Dieter Schouppe

4Publications

81Citation Statements Received

90Citation Statements Given

How they've been cited

105

How they cite others

192

Affiliations

Ghent University

Publications

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Interaction of the Tobacco Lectin with Histone Proteins

Schouppe

Ghesquière

Menschaert

et al. 2011

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The tobacco (Nicotiana tabacum) agglutinin or Nictaba is a member of a novel class of plant lectins residing in the nucleus and the cytoplasm of tobacco cells. Since tobacco lectin expression is only observed after the plant has been subjected to stress situations such as jasmonate treatment or insect attack, Nictaba is believed to act as a signaling protein involved in the stress physiology of the plant. In this paper, a nuclear proteomics approach was followed to identify the binding partners for Nictaba in the nucleus and the cytoplasm of tobacco cv Xanthi cells. Using lectin affinity chromatography and pull-down assays, it was shown that Nictaba interacts primarily with histone proteins. Binding of Nictaba with histone H2B was confirmed in vitro using affinity chromatography of purified calf thymus histone proteins on a Nictaba column. Elution of Nictaba-interacting histone proteins was achieved with 1 M N-acetylglucosamine (GlcNAc). Moreover, mass spectrometry analyses indicated that the Nictaba-interacting histone proteins are modified by O-GlcNAc. Since the lectin-histone interaction was shown to be carbohydrate dependent, it is proposed that Nictaba might fulfill a signaling role in response to stress by interacting with O-GlcNAcylated proteins in the plant cell nucleus.

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Mutational analysis of the carbohydrate binding activity of the tobacco lectin

et al. 2010

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At present the three-dimensional structure of the tobacco lectin, further referred to as Nictaba, and its carbohydrate-binding site are unresolved. In this paper, we propose a three-dimensional model for the Nictaba domain based on the homology between Nictaba and the carbohydrate-binding module 22 of Clostridium thermocellum Xyn10B. The suggested model nicely fits with results from circular dichroism experiments, indicating that Nictaba consists mainly of β-sheet. In addition, the previously identified nuclear localization signal is located at the top of the protein as a part of a protruding loop. Judging from this model and sequence alignments with closely related proteins, conserved glutamic acid and tryptophan residues in the Nictaba sequence were selected for mutational analysis. The mutant DNA sequences as well as the original Nictaba sequence have been expressed in Pichia pastoris and the recombinant proteins were purified from the culture medium. Subsequently, the recombinant proteins were characterized and their carbohydrate binding properties analyzed with glycan array technology. It was shown that mutation of glutamic acid residues in the C-terminal half of the protein did not alter the carbohydrate-binding activity of the lectin. In contrast, mutation of tryptophan residues in the N-terminal half of the Nictaba domain resulted in a complete loss of carbohydrate binding activity. These results suggest that tryptophan residues play an important role in the carbohydrate binding site of Nictaba.

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Novel Concepts About the Role of Lectins in the Plant Cell

Dammes

Fouquaert²,

Lannoo³

et al. 2011

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Characterization of N-glycosylated receptors for the tobacco lectin in the plant cell nucleus

Schouppe

Callewaert

Bourque

et al. 2008

Comparative Biochemistry and Physiology Part A: Molecular &

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Dieter Schouppe

Interaction of the Tobacco Lectin with Histone Proteins

Mutational analysis of the carbohydrate binding activity of the tobacco lectin

Novel Concepts About the Role of Lectins in the Plant Cell

Characterization of N-glycosylated receptors for the tobacco lectin in the plant cell nucleus

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