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  • Electron-capture dissociation and ion mobility mass spectrometry for characterization of the hemoglobin protein assembly.

Electron-capture dissociation and ion mobility mass spectrometry for characterization of the hemoglobin protein assembly.

Protein science : a publication of the Protein Society (2015-06-03)
Weidong Cui, Hao Zhang, Robert E Blankenship, Michael L Gross
ABSTRACT

Native spray has the potential to probe biophysical properties of protein assemblies. Here we report an investigation using both ECD top-down sequencing with an FTICR mass spectrometer and ion mobility (IM) measurements on a Q-TOF to investigate the collisionally induced unfolding of a native-like heterogeneous tetrameric assembly, human hemoglobin (hHb), in the gas phase. To our knowledge, this is the first report combining ECD and ion-mobility data on the same target protein assembly to delineate the effects of collisional activation on both assembly size and the extent and location of fragmentation. Although the collision-induced unfolding of the hemoglobin assembly is clearly seen by both IMMS and ECD, the latter delineates the regions that increasingly unfold as the collision energy is increased. The results are consistent with previous outcomes for homogeneous protein assemblies and reinforce our interpretation that activation opens the structure of the protein assembly from the flexible regions to make available ECD fragmentation, without dissociating the component proteins.

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Ammonio acetato, for molecular biology, ≥98%
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Ammonium acetate solution, for molecular biology, 7.5 M
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Ammonio acetato, 99.999% trace metals basis
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Ammonio acetato, reagent grade, ≥98%
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Ammonio acetato, BioXtra, ≥98%