Birgit Christine Bønsager scite author profile

Germination of barley is accompanied by changes in water-soluble seed proteins. 2-DE was used to describe spatio-temporal proteome differences in dissected seed tissues associated with germination and the subsequent radicle elongation. Protein identification by MS enabled assignment of proteins and functions to the seed embryo, aleurone, and endosperm. Abundance in 2-DE patterns was monitored for 48 different proteins appearing in 79 gel spots at 8 time-points up to 72 h post imbibition (PI). In embryo, a beta-type proteasome subunit and a heat shock protein 70 fragment were among the earliest proteins to appear (at 4 h PI). Other early changes were observed that affected spots containing desiccation stress-associated late embryogenesis abundant and abscisic acid (ABA)-induced proteins. From 12 h PI proteins characteristic for desiccation stress disappeared rapidly, as did a putative embryonic protein and an ABA-induced protein, suggesting that these proteins are also involved in desiccation stress. Several redox-related proteins differed in spatio-temporal patterns at the end of germination and onset of radicle elongation. Notably, ascorbate peroxidase that was observed only in the embryo, increased in abundance at 36 h PI. The surprisingly early changes seen in the protein profiles already 4 h after imbibition indicate that germination is programmed during seed maturation.

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Kinetics and Energetics of the Binding between Barley α-Amylase/Subtilisin Inhibitor and Barley α-Amylase 2 Analyzed by Surface Plasmon Resonance and Isothermal Titration Calorimetry

Nielsen

Bønsager

Berland

et al. 2003

Biochemistry

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The kinetics and energetics of the binding between barley alpha-amylase/subtilisin inhibitor (BASI) or BASI mutants and barley alpha-amylase 2 (AMY2) were determined using surface plasmon resonance and isothermal titration calorimetry (ITC). Binding kinetics were in accordance with a 1:1 binding model. At pH 5.5, [Ca(2+)] = 5 mM, and 25 degrees C, the k(on) and k(off) values were 8.3 x 10(+4) M(-1) s(-1) and 26.0 x 10(-4) s(-1), respectively, corresponding to a K(D) of 31 nM. K(D) was dependent on pH, and while k(off) decreased 16-fold upon increasing pH from 5.5 to 8.0, k(on) was barely affected. The crystal structure of AMY2-BASI shows a fully hydrated Ca(2+) at the protein interface, and at pH 6.5 increase of [Ca(2+)] in the 2 microM to 5 mM range raised the affinity 30-fold mainly due to reduced k(off). The K(D) was weakly temperature-dependent in the interval from 5 to 35 degrees C as k(on) and k(off) were only increasing 4- and 12-fold, respectively. A small salt dependence of k(on) and k(off) suggested a minor role for global electrostatic forces in the binding and dissociation steps. Substitution of a positively charged side chain in the mutant K140L within the AMY2 inhibitory site of BASI accordingly did not change k(on), whereas k(off) increased 13-fold. ITC showed that the formation of the AMY2-BASI complex is characterized by a large exothermic heat (Delta H = -69 +/- 7 kJ mol(-1)), a K(D) of 25 nM (27 degrees C, pH 5.5), and an unfavorable change in entropy (-T Delta S = 26 +/- 7 kJ mol(-1)). Calculations based on the thermodynamic data indicated minimal structural changes during complex formation.

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Barley α-amylase/subtilisin inhibitor: structure, biophysics and protein engineering

Nielsen

Bønsager

Fukuda

et al. 2004

Biochimica et Biophysica Acta (BBA) - Proteins and Proteomics

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Efficient secretory expression of functional barley limit dextrinase inhibitor by high cell-density fermentation of Pichia pastoris

Jensen

Vester-Christensen

Møller

et al. 2011

Protein Expression and Purification

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Purification and characterization of the β-trefoil fold protein barley α-amylase/subtilisin inhibitor overexpressed in Escherichia coli

Bønsager¹,

Prætorius-Ibba²,

Nielsen³

et al. 2003

Protein Expression and Purification

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Proteomic and activity profiles of ascorbate–glutathione cycle enzymes in germinating barley embryo

et al. 2010

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Mutational Analysis of Target Enzyme Recognition of the β-Trefoil Fold Barley α-Amylase/Subtilisin Inhibitor

Bønsager

Nielsen

Hachem

et al. 2005

Journal of Biological Chemistry

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The barley ␣-amylase/subtilisin inhibitor (BASI) inhibits ␣-amylase 2 (AMY2) with subnanomolar affinity. The contribution of selected side chains of BASI to this high affinity is discerned in this study, and binding to other targets is investigated. Seven BASI residues along the AMY2-BASI interface and four residues in the putative protease-binding loop on the opposite side of the inhibitor were mutated. A total of 15 variants were compared with the wild type by monitoring the ␣-amylase and protease inhibitory activities using Blue Starch and azoalbumin, respectively, and the kinetics of binding to target enzymes by surface plasmon resonance. Generally, the mutations had little effect on k on , whereas the k off values were increased up to 67-fold. The effects on the inhibitory activity, however, were far more pronounced, and the K i values of some mutants on the AMY2-binding side increased 2-3 orders of magnitude, whereas mutations on the other side of the inhibitor had virtually no effect. The mutants K140L, D150N, and E168T lost inhibitory activity, revealing the pivotal role of charge interactions for BASI activity on AMY2. A fully hydrated Ca 2؉ at the AMY2-BASI interface mediates contacts to the catalytic residues of AMY2. Mutations involving residues contacting the solvent ligands of this Ca 2؉ had weaker affinity for AMY2 and reduced sensitivity to the Ca 2؉ modulation of the affinity. These results suggest that the Ca 2؉ and its solvation sphere are integral components of the AMY2-BASI complex, thus illuminating a novel mode of inhibition and a novel role for calcium in relation to glycoside hydrolases.The double-headed barley ␣-amylase/subtilisin inhibitor (BASI) 1 of the Kunitz soybean trypsin inhibitor family acts on proteases of the subtilisin family and the endogenous high pI ␣-amylase (AMY2) but has no effect on the minor isozyme AMY1 that shares 80% sequence identity with AMY2

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