Archive for September, 2015

Isoelectronic games: the CO analogue of diazirines as an intriguing species?

Thursday, September 24th, 2015

How does an anaesthetic work? Surprisingly, it is only recently[1] that the possible binding sites of the anaesthetic propofol (2,6-di-isopropylphenol) have been identified using a technique known as photoaffinity labelling.[2] A propofol analogue was constructed[1] by replacing one of the isopropyl groups with a trifluoromethyl diazirine group (R=CF3, X=Y=N below). Upon photolysis, this species looses nitrogen and forms a carbene as a reactive species, which with further chemistry binds covalently[2] to adjacent amino acids in the binding pocket.These modified segments could then be analysed by mass spectrometry.[1] An isomer of  diazirine is diazomethane, which is some 11 kcal/mol lower in free energy, but fortunately the diazirene is preventing from thermally isomerising to this species by a large kinetic barrier. That was the intro; now for a connection. I recently attended a presentation on another medical topic, the therapeutic uses of carbon monoxide.[3] In higher concentrations it is notoriously lethal, but with appropriate delivery it can be therapeutic. So, intertwingling, I asked myself what the properties of the carbon monoxide isoelectronic analogue of a diazirine might be (X=C, Y=O below). 

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References

  1. G.M.S. Yip, Z. Chen, C.J. Edge, E.H. Smith, R. Dickinson, E. Hohenester, R.R. Townsend, K. Fuchs, W. Sieghart, A.S. Evers, and N.P. Franks, "A propofol binding site on mammalian GABAA receptors identified by photolabeling", Nature Chemical Biology, vol. 9, pp. 715-720, 2013. http://dx.doi.org/10.1038/nchembio.1340
  2. L. Dubinsky, B.P. Krom, and M.M. Meijler, "Diazirine based photoaffinity labeling", Bioorganic & Medicinal Chemistry, vol. 20, pp. 554-570, 2012. http://dx.doi.org/10.1016/j.bmc.2011.06.066
  3. R. Motterlini, and L.E. Otterbein, "The therapeutic potential of carbon monoxide", Nature Reviews Drug Discovery, vol. 9, pp. 728-743, 2010. http://dx.doi.org/10.1038/nrd3228

Deviations from planarity of trigonal carbon and from linearity of digonal carbon.

Sunday, September 13th, 2015

Previously, I explored deviation from ideal tetrahedral arrangements of four carbon ligands around a central (sp3) carbon using crystal structures. Now it is the turn of digonal (sp1) and trigonal (sp2) carbons. 

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Deviations from tetrahedral four-coordinate carbon: a statistical exploration.

Sunday, September 6th, 2015

An article entitled "Four Decades of the Chemistry of Planar Hypercoordinate Compounds"[1] was recently reviewed by Steve Bacharach on his blog, where you can also see comments. Given the recent crystallographic themes here, I thought I might try a search of the CSD (Cambridge structure database) to see whether anything interesting might emerge for tetracoordinate carbon.

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References

  1. L. Yang, E. Ganz, Z. Chen, Z. Wang, and P.V.R. Schleyer, "Four Decades of the Chemistry of Planar Hypercoordinate Compounds", Angewandte Chemie International Edition, vol. 54, pp. 9468-9501, 2015. http://dx.doi.org/10.1002/anie.201410407

π-Resonance in thioamides: a crystallographic “diff” with amides.

Saturday, September 5th, 2015

The previous post explored the structural features of amides. Here I compare the analysis with that for the closely related thioamides.

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π-Resonance in amides: a crystallographic reality check.

Saturday, September 5th, 2015

The π-resonance in amides famously helped Pauling to his proposal of a helical structure for proteins. Here I explore some geometric properties of amides related to the C-N bond and the torsions about it.

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A sea-change in science citation? The Wikipedia Science conference.

Thursday, September 3rd, 2015

The first conference devoted to scientific uses of Wikipedia has just finished; there was lots of fascinating stuff but here I concentrate on one report that I thought was especially interesting. To introduce it, I need first to introduce WikiData. This is part of the WikiMedia ecosystem, and one of the newest. The basic concept is really simple.

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