Isotope-Tagged Cross-Linking Reagents. A New Tool in Mass Spectrometric Protein Interaction Analysis

Müller, Dieter; Schindler, Patrick; Towbin, Harry; Wirth, Urs; Voshol, Hans; Hoving, and S.; Steinmetz, Michel O.

doi:10.1021/ac001379a

Cited by 213 publications

(191 citation statements)

References 40 publications

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“…To exploit this information, both peptides that are involved in a crosslink need to be identified. Improvement in mass spectrometry (MS) technology has made this conceivable, in particular high mass precision spectrometers and the development of isotopically coded cross-linkers [3][4][5] . Several studies have proven the general feasibility of this approach 3,[6][7][8][9] .…”

Section: Introductionmentioning

confidence: 99%

Identification of cross-linked peptides from large sequence databases

et al. 2008

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We describe a method to identify cross-linked peptides from complex samples and large protein sequence databases. The advance was achieved by combining isotopically tagged cross-linkers, chromatographic enrichment, targeted proteomics, and a novel search engine called xQuest. This software reduces the search space by an upstream candidatepeptide search before the recombination step; we show that xQuest can identify cross-linked peptides from a total E. coli lysate with an unrestricted database search.

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Section: Introductionmentioning

confidence: 99%

Identification of cross-linked peptides from large sequence databases

et al. 2008

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“…Human Op18/stathmin (referred to as stathmin (3)) is an evolutionary well conserved 17-kDa cytoplasmic phosphoprotein. The monomeric protein consists of a N-terminal capping domain (13,14) and a C-terminal helical interaction domain (13,(15)(16)(17)(18)(19). Originally, stathmin was described as a protein that binds to tubulin dimers and increases the catastrophe frequency of MT in vitro (20).…”

Section: Microtubule (Mt)mentioning

confidence: 99%

“…The structure of the complex has been investigated by electron microscopy (13), by a 4-Å resolution x-ray structure of the tubulin-RB3-SLD complex (note that RB3-SLD exhibits 72% identity with stathmin (17)), and by chemical cross-linking (14). The tubulinstathmin complex consists of two head-to-tail aligned ␣/␤-tubulin heterodimers (represented as light and dark gray ribbons) that are tilted with respect to each other by ϳ25°.…”

Section: Fig 1 Current Structural View Of the Ternary Tubulin-stathmentioning

confidence: 99%

Thermodynamics of the Op18/Stathmin-Tubulin Interaction

Honnappa

Cutting

Jahnke

et al. 2003

Journal of Biological Chemistry

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Op18/stathmin (stathmin) is an intrinsically disordered protein involved in the regulation of the microtubule filament system. One function of stathmin is to sequester tubulin dimers into assembly incompetent complexes, and recent studies revealed two tubulin binding sites per stathmin molecule. Using high sensitivity isothermal titration calorimetry, we document that at 10°C and under the conditions of 80 mM PIPES, pH 6.8, 1 mM EGTA, 1 mM MgCl 2 , 1 mM GTP these two binding sites are of equal affinity with an equilibrium binding constant of K 0 ‫؍‬ 6.0 ؋ 10 6 M ؊1 . The obtained large negative molar heat capacity change of ⌬C p 0 ‫؍‬ ؊860 cal mol ؊1 K ؊1 (referring to tubulin) for the tubulinstathmin binding equilibrium suggests that the hydrophobic effect is the major driving force of the binding reaction. Replacing GTP by GDP on ␤-tubulin had no significant effect on the thermodynamic parameters of the tubulin-stathmin binding equilibrium. The proposed pH-sensitive dual function of stathmin was further evaluated by circular dichroism spectroscopy and nuclear magnetic resonance. At low temperatures, stathmin was found to be extensively helical but devoid of any stable tertiary structure. However, in complex with two tubulin subunits stathmin adopts a stable conformation. Both the stability and conformation of the individual proteins and complexes were not significantly affected by small changes in pH. A 4-fold decrease in affinity of stathmin for tubulin was revealed at pH 7.5 compared with pH 6.8. This decrease could be attributed to a weaker binding of the C terminus of stathmin. These findings do not support the view that stathmin works as a pH-sensitive protein.

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“…This problem has been partially addressed by "tagging" methodologies that allow rapid visual MS location of cross-linked species within complex peptide mixtures (34,(37)(38)(39). For example, the use of a 1:1 mixture of undeuterated and deuterated (d 0 /d 4 -labeled) cross-linking reagent readily allows mass spectrometric detection of all cross-linked species by the presence of d 0 /d 4 -isotope tags (39). However, for studying interactions between proteins, even these tagging methodologies fall short in that they fail to distinguish inter-and intra-cross-linked peptides.…”

mentioning

confidence: 99%

Characterization of an Antagonist Interleukin-6 Dimer by Stable Isotope Labeling, Cross-linking, and Mass Spectrometry

Taverner

Hall

O’Hair

et al. 2002

Journal of Biological Chemistry

112

101

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The homodimeric form of a recombinant cytokine interleukin-6 (IL-6 D ) is known to antagonize IL-6 signaling. In this study, spatially proximal residues between IL-6 chains in IL-6 D were identified using a method for specific recognition of intermolecular cross-linked peptides. Our strategy involved mixing 1:1 15 N-labeled and unlabeled ( 14 N) protein to form a mixture of isotopically labeled and unlabeled homodimers, which was chemically cross-linked. This cross-linked IL-6 D was subjected to proteolysis by trypsin and the generated peptides were analyzed by electrospray ionization time-of-flight mass spectrometry (

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Isotope-Tagged Cross-Linking Reagents. A New Tool in Mass Spectrometric Protein Interaction Analysis

Cited by 213 publications

References 40 publications

Identification of cross-linked peptides from large sequence databases

Identification of cross-linked peptides from large sequence databases

Thermodynamics of the Op18/Stathmin-Tubulin Interaction

Characterization of an Antagonist Interleukin-6 Dimer by Stable Isotope Labeling, Cross-linking, and Mass Spectrometry

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