Aug
14
2010

Enhanced paper reading and huge kinase complexes

About a year ago we reported of PLoS and Molsoft launching a new way of publishing structural biology related papers. A couple of days ago I’ve stumbled on one such paper, published in PLoS biology and decided to take the technology for a ride.

Viewing the enhanced version of the paper demands a one time plug-in download which is rather fast. However, with the plug-in installed, it took the structural data a hefty 10 minutes to load. One possible reason for that, is the massive amount of structures solved by the authors – and this might be a good point to introduce the paper.

Structure of the CaMKIId/Calmodulin Complex Reveals the Molecular Mechanism of CaMKII Kinase Activation. Rellos & Pike et al. (2010) PLoS Biology.

Calmodulin (or CaM) is a calcium dependent binding module. Amongst other targets, CaM binds CaMKII kinases and thus connects calcium signals to phosphorylation activated signaling pathways. These kinsases take key roles in many processes including signaling in neurons and controlling of the heart rate.

CaMKII forms an exceptionally large, dodecameric complex (long loading times or what ?). The authors solved the crystal structure of this complex for each of the four human CaMKII catalytic domains in complex with Ca2+/CaM, as well as the structure of the oligomerization domain (the part of the protein that mediates complex formation) in its physiological dodecameric state and in a tetradecameric(!!!!) state.

Enhanced paper reading

Enhanced paper reading

The solved complex structure captures the kinase in a novel state which together with analysis of  structures of all human isozymes in their autoinhibited state, and in-solution association studies showed that binding of Ca2+/CaM triggers large structural changes in the kinase that together lead to allosteric kinase activation. Based on this, the authors propose a model that explains the substrate recognition leading to Ca2+/CaM-dependent allosteric activation of human CaMKIIs.

Besides the interesting biological story, the ‘enhanced reading’ feature is quite nice, and guides you along the reading. One major caveat though, is that anything other than simple rotation of the structure is not very intuitive (I still haven’t figured out how to zoom in and out). I hope in the future we’ll see more of these ‘enhanced’ papers and better controls. How were your impressions of this tool? Did anyone give it a go?

Rellos P, Pike AC, Niesen FH, Salah E, Lee WH, von Delft F, & Knapp S (2010). Structure of the CaMKIIdelta/calmodulin complex reveals the molecular mechanism of CaMKII kinase activation. PLoS biology, 8 (7) PMID: 20668654

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Written by Nir London in: Literature Reviews | Tags: , , , , , ,

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  • Andrew Wollacott

    I’ve tried this plug-in a couple times before (not this article though). The default way to zoom is to move your mouse to the very left side of the viewing window and you should see the mouse icon change. Click and drag up and down to zoom. Moving the mouse to the very bottom of the viewing window and to the very right should also change the mouse mode to Z-rotation or Clip, if I recall.

    These enhanced papers are nice, but I prefer old-fashioned printouts.

    Enjoy the blog!

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