May 28th, 2012
Streptomycin is an antibiotic active against tuberculosis, and its discovery has become something of a cause célèbre. It was first isolated on October 19, 1943 by a graduate student Albert Schatz in the laboratory of Selman Waksman at Rutgers University. I want to concentrate in this post on its molecular structure. Its initial isolation was followed by an extraordinarily concentrated period of about three years devoted to identifying that structure, culminating in a review of this chemistry in 1948 by Lemieux and Wolfram.[1] This review presents the structure as shown below (left). The modern rendering on the right is based on a crystal structure done in 1978.[2]‡
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References
- R. Lemieux, and M. Wolfrom, "The Chemistry of Streptomycin", Advances in Carbohydrate Chemistry, pp. 337-384, 1948. https://doi.org/10.1016/s0096-5332(08)60034-x
- S. Neidle, D. Rogers, and M.B. Hursthouse, "The crystal and molecular structure of streptomycin oxime selenate tetrahydrate", Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences, vol. 359, pp. 365-388, 1978. https://doi.org/10.1098/rspa.1978.0047
Tags: Albert Schatz, candidate for its formula, Historical, laboratory of Selman Waksman, MS, muse, pence, Rutgers University, tuberculosis, X-ray
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May 25th, 2012
If you have not previously visited, take a look at Nick Greeves’ ChemTube3D , an ever-expanding gallery of reactions and their mechanisms. The 3D is because all molecules are offered with X, Y and z coordinates. You also get arrow pushing‡ in 3D. Here, I argue that we should adopt Einstein, and go to the space-time continuum! By this, I mean one must also include the order in which things happen. To my knowledge, no compendium of (organic) reaction mechanisms incorporates this 4th dimension. My prelude to this post nicely illustrated this latter aspect. Here I continue with an exploration of the mechanism of forming an acyl chloride from a carboxylic acid using thionyl chloride. The mechanism shown at ChemTube3D is as below and will now be tested for its reasonableness using quantum mechanics.
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Tags: acetic acid, Reaction Mechanism, Tutorial material
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May 24th, 2012
HCl reacting with a carbonyl compound (say formaldehyde) sounds pretty simple. But often the simpler a thing looks, the more subtle it is under the skin. And this little reaction is actually my prelude to the next post.
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Tags: acetic acid, Tutorial material
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May 19th, 2012
Many reaction mechanisms involve a combination of bond formation/cleavage between two non-hydrogen atoms and those involving reorganisation of proximate hydrogens. The Baeyer-Villiger discussed previously illustrated a complex dance between the two types. Here I take a look at another such mechanism, the methylation of a carboxylic acid by diazomethane.
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Tags: e-books, Tutorial material
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May 18th, 2012
Text books (is this a misnomer, much like “papers” are in journals?) in a higher-educational chemistry environment, I feel, are at a cross-roads. What happens next?
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Tags: author, Bob Hanson, energy, GBP, iPads, PDF, skilful author, Skolnik, Steve Job, Steve Jobs, tablet devices, textbook author, Tutorial material, USD
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May 7th, 2012
The mechanism of the reaction of alkenes known as ozonolysis was first set out in its modern form by Criegee. The crucial steps, (a), (b) and (d), are all pericyclic cycloaddition/eliminations. The last step (e) is known as reductive ozonolysis, and this step is often treated as an afterthought, part of the work-up of the reaction if you like (it is not illustrated in Criegee’s review for example). Here, I will attempt to show that it is actually a very interesting mechanistic step.
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Tags: 200th post, Historical, pericyclic, S bridge
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May 7th, 2012
The Baeyer-Villiger rearrangement was named after its discoverers, who in 1899 described the transformation of menthone into the corresponding lactone using Caro’s acid (peroxysulfuric acid). The mechanism is described in all text books of organic chemistry as involving an alkyl migration. Here I take a look at the scheme described by Alvarez-Idaboy, Reyes and Mora-Diez[1], and which may well not yet have made it to all the text books!
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References
- J.R. Alvarez-Idaboy, L. Reyes, and N. Mora-Diez, "The mechanism of the Baeyer–Villiger rearrangement: quantum chemistry and TST study supported by experimental kinetic data", Organic & Biomolecular Chemistry, vol. 5, pp. 3682, 2007. https://doi.org/10.1039/b712608e
Tags: final product, free energy, Historical, stereoelectronic, Tutorial material, X5
Posted in reaction mechanism | 6 Comments »
April 30th, 2012
During the 1960s, a holy grail of synthetic chemists was to devise an efficient route to steroids. R. B. Woodward was one the chemists who undertook this challenge, starting from compounds known as dienones (e.g. 1) and their mysterious conversion to phenols (e.g. 2 or 3) under acidic conditions. This was also the golden era of mechanistic exploration, which coupled with an abundance of radioactive isotopes from the war effort had ignited the great dienone-phenol debates of that time (now largely forgotten). In a classic recording from the late 1970s, Woodward muses how chemistry had changed since he started in the early 1940s. In particular he notes how crystallography had revolutionised the reliability and speed of molecular structure determination. Here I speculate what he might have made of modern computational chemistry, and in particular whether it might cast new light on those mechanistic controversies of the past.
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Tags: computational chemist, computational chemistry, Historical, pericyclic, sigmatropic shifts, tracer labelling
Posted in Chemical IT, Interesting chemistry | 1 Comment »
April 22nd, 2012
Astronomers who discover an asteroid get to name it, mathematicians have theorems named after them. Synthetic chemists get to name molecules (Hector’s base and Meldrum’s acid spring to mind) and reactions between them. What do computational chemists get to name? Transition states! One of the most famous of recent years is the Houk-List.
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Tags: catalysis, condensation, energy, gas-phase optimised geometry, Historical, Houk-List, smallest steric exchange energy, so-called single-point solvation energy correction, steric exchange energy
Posted in Interesting chemistry | 4 Comments »
April 6th, 2012
Chemists love a mystery as much as anyone. And gaps in patterns can be mysterious. Mendeleev’s period table had famous gaps which led to new discovery. And so from the 1890s onwards, chemists searched for the perbromate anion, BrO4–. It represented a gap between perchlorate and periodate, both of which had long been known. As the failure to turn up perbromate persisted, the riddle deepened. Finally, in 1968, the key was found, but talk about sledgehammer to crack a nut! It was done by alchemical-like radioactive transmutation of selenium into bromine:
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Tags: alkaline sodium hypobromite solution, chemical synthesis, Historical, metal catalysis, present chemical knowledge, speculative chemist
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