Biomolecular dynamics and binding studies in the living cell

Isolation and preparation of proteins of higher organisms often is a tedious task. In the case of success, the properties of these proteins and their interactions with other proteins can be studied in vitro. If however, these proteins are modified in the cell in order to gain or change function, thi...

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Veröffentlicht in:Physics of life reviews 2014-03, Vol.11 (1), p.1-30
Hauptverfasser: Diekmann, Stephan, Hoischen, Christian
Format: Artikel
Sprache:eng
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Zusammenfassung:Isolation and preparation of proteins of higher organisms often is a tedious task. In the case of success, the properties of these proteins and their interactions with other proteins can be studied in vitro. If however, these proteins are modified in the cell in order to gain or change function, this is non-trivial to correctly realise in vitro. When, furthermore, the cellular function requires the interplay of more than one or two proteins, in vitro experiments for the analysis of this situation soon become complex. Instead, we thus try to obtain information on the molecular properties of proteins in the living cell. Then, the cell takes care of correct protein folding and modification. A series of molecular techniques are, and new ones become, available which allow for measuring molecular protein properties in the living cell, offering information on concentration (FCS), dynamics (FCS, RICS, FRAP), location (PALM, STED), interactions (F3H, FCCS) and protein proximities (FRET, BRET, FLIM, BiFC). Here, these techniques are presented with their advantages and drawbacks, with examples from our current kinetochore research. The review is supposed to give orientation to researchers planning to enter the field, and inform which techniques help us to gain molecular information on a multi-protein complex. We show that the field of cellular imaging is in a phase of transition: in the future, an increasing amount of physico-chemical data can be determined in the living cell. •We cloned a large number of human kinetochore proteins and fused them to a number of tags.•We determined kinetochore protein–protein interactions by 4 different in vivo methods.•We characterised cell-cycle dependent human kinetochore protein dynamics and complex binding.•We measured cell-cycle dependent kinetochore protein proximities in vivo and in situ.•The applied methods allow to detect cell-cycle dependent changes of complex structure.
ISSN:1571-0645
1873-1457
DOI:10.1016/j.plrev.2013.11.011