January 2013 – Organic & Biomolecular Chemistry Blog

Archive for January, 2013

Cascading to spiropyrazolones

29 Jan 2013

Researchers in China have developed a simple and effective way to construct spiropyrazolones, stereochemically complex and challenging structural motifs found in many biologically active molecules.

An organocatalytic asymmetric double Michael cascade reaction of unsaturated ketones and unsaturated pyrazolones: highly efficient synthesis of spiropyrazolone derivatives
Jinyan Liang, Qiao Chen, Luping Liu, Xianxing Jiang and Rui Wang
DOI: 10.1039/C2OB27095A

Spirocyclic structures are bicyclic systems where the two rings are connected through a single atom, usually a quaternary carbon. Due to their complex three-dimensional architecture, they are important molecular subunits in organic chemistry. They can be very difficult to assemble, especially in an asymmetric and atom-economic fashion.

3-Pyrazolones are privileged structures and molecules that contain them have been found to possess a huge range of useful biological effects such as antibiotic and anti-tumour properties. In addition to their marked medicinal potential, they have also found use as dyes and anti-corrosives.

For these reasons, methods for the construction of pyrazolone derivatives have attracted intense interest from organic chemists in recent years. The synthesis of optically active pyrazolones, including spiropyrazolones, is particularly challenging with only a handful of syntheses reported in the current literature.

Professor Rui Wang, of the State Key Laboratory of Applied Organic Chemistry, Lanzhou University in China and his research group have been looking into new ways to make spirocyclic compounds, using organocatalytic cascade reactions.

In their latest HOT PAPER, they turn their attention to the construction of spiropyrazolones. A very elegant organocatalytic double Michael cascade reaction between unsaturated ketones and unsaturated pyrazolones yields the desired spiropyrazolone core structure in excellent diastereo- and enantioselectivities.

This reaction provides rapid entry into stereochemically complex spiropyrazolone derivatives and will no doubt prove useful in the manufacture of future medicines and materials.

Published on behalf of Annabella Newton, Organic & Biomolecular Chemistry web science writer.

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Organic & Biomolecular Chemistry issue 7 out now

25 Jan 2013

Welcome to this week’s issue of Organic & Biomolecular Chemistry!

On the front cover:

M. Cepeda and co-workers explore the solution phase behaviour of β-cyclodextrin/alkyltrimethylammonium bromide mixtures, varying the surfactant alkyl chain length from hexyl (C₆) to octadecyl (C₁₈).

Competition between surfactant micellization and complexation by cyclodextrin
M. Cepeda, R. Daviña, L. García-Río, M. Parajó, P. Rodríguez-Dafonte and M. Pessêgo
DOI: 10.1039/C2OB26318A

On the inside cover:

Jasmin Mecinović and colleagues describe how hydroxylamine acts as an oxygen nucleophile in the substitution reaction with benzothiazole-2-sulfonamides in aqueous media.

Hydroxylamine as an oxygen nucleophile: substitution of sulfonamide by a hydroxyl group in benzothiazole-2-sulfonamides
Jos J. A. G. Kamps, Roman Belle and Jasmin Mecinović
DOI: 10.1039/C2OB26929E

Don’t forget, both of these cover articles are free to access for the next 6 weeks!

Get your hands on the rest of the great content in this issue HERE, and why not have a look at some of the latest published articles not yet in an issue.

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Flow synthesis for anticancer drug

24 Jan 2013

The flow-based route required minimal manual intervention and was achieved despite poor solubility of many reaction components

UK chemists have used a combination of flow chemistry methods with solid-supported scavengers and reagents to synthesise the active pharmaceutical ingredient, imatinib, of the anticancer drug Gleevec. The method avoids the need for any manual handling of intermediates and allows the drug to be synthesised in high purity in less than a day.

Gleevec, developed by Novartis, is a tyrosine kinase inhibitor used for the treatment of chronic myeloid leukaemia and gastrointestinal stromal tumours. The drug molecule represents a particularly challenging target for flow chemistry because of the low solubility of many of the reaction components required for its synthesis. The team devised a new synthesis route that prevents the equipment blockages from product precipitation and avoids many of the labour and time intensive practices of traditional batch-based preparation.

The work proved to be a challenge. Steve Ley, at the University of Cambridge, who led the team, says that along the way, they ‘met some considerable obstacles and dead ends’. He remarks that ‘in order to overcome the need to change solvents between some of the reaction stages, we had to invent a new in-line evaporator, which served us well in this and in later synthesis studies’.

Unlike the conventional industrial synthesis of Gleevec, this newly developed route couples molecular fragments in a modular approach. Thomas Wirth, who works on microreactor technology at Cardiff University, UK, remarks that ‘although not designed to compete with the industrial synthesis, the modular approach allows an easy variation of building blocks for the efficient and rapid generation of Gleevec analogues for screening purposes’.

A total of nine analogues were synthesised using the final equipment set-up, which were then screened for anticancer activity. The findings revealed that the piperazine group in the drug molecule plays a role in receptor binding, rather than simply acting as a solubilising group as previously thought.

Ley’s team is now working to combine the synthesis and screening to provide information on products rapidly, as well as extending their approach to new functional materials.

Read the Organic & Biomolecular Chemistry paper, for free for 4 weeks here:

An expeditious synthesis of imatinib and analogues utilising flow chemistry methods
Mark D. Hopkin, Ian R. Baxendale and Steven V. Ley
Org. Biomol. Chem.
DOI: 10.1039/C2OB27002A

Story first published in Chemistry World.

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Inside Organic & Biomolecular Chemistry issue 6

21 Jan 2013

This week in Organic & Biomolecular Chemistry we are bringing you: 1 Emerging Area review, 4 Communications and 18 articles full of interesting chemistry. Visit the issue and get it all!

On the front cover:
Andreea R. Schmitzer and coworkers present the first example of a benzimidazolium-based artificial transmembrane chloride transporter and a synthetic calcium ionophore that can regulate intracellular calcium concentrations in bacteria.

Benzimidazolium-based synthetic chloride and calcium transporters in bacterial membranes
Claude-Rosny Elie, Audrey Hébert, Mathieu Charbonneau, Adam Haiun and Andreea R. Schmitzer
DOI: 10.1039/C2OB26966J

On the inside cover:
Noriho Kamiya and colleagues at Kyushu University assess how the spatial arrangement of the avidin–biotin interaction between protein building blocks affects the formation of a protein supramolecular complex.

Protein supramolecular complex formation by site-specific avidin–biotin interactions
Yutaro Mori, Rie Wakabayashi, Masahiro Goto and Noriho Kamiya
DOI: 10.1039/C2OB26625C

Go to the issue now…..

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Introducing Organic & Biomolecular Chemistry Associate Editor Professor Margaret Brimble

18 Jan 2013

The Editorial team are very pleased to announce that Professor Margaret Brimble is now an Associate Editor for Organic & Biomolecular Chemistry.

Margaret Brimble holds the Chair of Organic and Medicinal Chemistry at the University of Auckland, is Past-President of the International Society for Heterocyclic Chemistry, Chair of the Physical Sciences Panel of the NZ Marsden Fund and a Principal Investigator in the Maurice Wilkins Centre for Molecular Biodiscovery.

Originally from Auckland, Margaret received a BSc and MSc (Hons) in Chemistry from the University of Auckland and a PhD in organic chemistry at the University of Southampton. In 2004, she won the Novartis Chemistry Award and the James Cook Research Fellowship from the Royal Society of New Zealand and in 2005, she was appointed a Member of the New Zealand Order of Merit (Queen’s Honour) for her service to science. She is a Fellow of the Royal Society of New Zealand, a Fellow of the Royal Society of Chemistry, a Fellow of the Royal Australian Chemical Institute and a Fellow of the New Zealand Institute of Chemistry.

We took this opportunity to ask Margaret a few questions:

• What inspired you to become a chemist?
The creativity associated with making new molecules for the first time.

• What exciting projects are you working on at the moment?
The synthesis of some really interesting antimicrobial glycopeptides and the synthesis of complex natural products with anticancer activity.

• You have won a number of awards since the start of your career, including the Rutherford Medal of the Royal Society of New Zealand last year. What is the key to your success?
To do total synthesis of natural products you have to be persistent and work hard. You have to accept that 90% of what you do will not work. I believe that nothing worth doing comes easily. I am therefore motivated by the “bigger picture” and have long term goals having faith that down the track the quality of our science will be recognized. The Rutherford Medal from The Royal Society of New Zealand is awarded for long term contributions to science and technology in New Zealand so this success resulted from many years of hard work with my research team.

• What scientific discovery would you most like to have been responsible for?
We have a drug candidate NNZ2566 that is in phase 2b clinical trial for traumatic brain injury. We provided the medicinal chemistry expertise for Neuren Pharmaceuticals to develop this synthetic drug candidate. I really hope NNZ2566 makes it to the market.

• You have recently become an Associate Editor for Organic & Biomolecular Chemistry. What are you looking forward to most about your new role?
I am looking forward to interacting with the synthetic community more and learning more about the chemistry people are doing. The world of synthesis is vast and it is hard to keep up with what everyone is doing.

• What advice would you give to the students who will be the next generation of scientists?
I tell my young students to do the science you like doing. I also tell them to stick to their science and not get distracted.

• What would you be if you weren’t a scientist?
I have thought about this often but actually still can’t think about anything better than being a synthetic organic chemist! We get to interact with lots of other scientists and have fun making new molecules for a range of different exciting applications – mainly for drug discovery and as new materials.

Margaret’s recent articles include:
The Kulinkovich hydroxycyclopropanation reaction in natural product synthesis
Org. Biomol. Chem., 2012,10, 7649-7665

Enantioselective synthesis of C-linked spiroacetal-triazoles as privileged natural product-like scaffolds
Org. Biomol. Chem., 2012,10, 5993-6002

Synthesis of glycosylated 5-hydroxylysine, an important amino acid present in collagen-like proteins such as adiponectin
Org. Biomol. Chem., 2012,10, 1137-1144

If you would like to submit an article to OBC, to be handled by Margaret, you can do so here on our submissions platform.

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Following her passion – an interview with Veronique Gouverneur

14 Jan 2013

Veronique Gouverneur

Veronique Gouverneur is professor of chemistry at the University of Oxford, UK. She investigates fluorine chemistry and is working on developing novel synthetic methodologies for the preparation of fluorinated targets. The OBC team have been fortunate enough to work with Veronique for the past 6 years in her role on our Editorial Board, from which she has recently retired, and as such we are very pleased to bring you this interview with her.

What inspired you to be a scientist?

I’ve always been interested in science. My love for chemistry was perhaps related to my dad’s career. He was an engineer and secured a PhD in theoretical chemistry, but after a few years as an academic, he changed his career path to become a diplomat. He worked for the United Nations Educational, Scientific and Cultural Organization (UNESCO), but was still involved in the science area. That was probably an inspiration to me as I was familiar with chemistry at home.

I found science easier at school than any other subject, but I did hesitate between chemistry and maths; I was so clumsy that I thought chemistry was perhaps not the best way forward. But chemistry was what I enjoyed the most and what I wanted to do. Chemistry is all about creativity and, as such, is somehow related to art: you create a molecule (useful or not!) and can endow it with a function. It’s a unique dimension to one particular subject.

Click here to read the complete interview…

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Inside Organic & Biomolecular Chemistry issue 5

10 Jan 2013

Welcome one and all as we take a look inside issue 5 of Organic & Biomolecular Chemistry!

Between its covers this week we have 2 Emerging area reviews on the enantioselective synthesis of helicenequinones and -bisquinones, and asymmetric trienamine catalysis: new opportunities in amine catalysis; 2 Communications and 16 articles, including a HOT article on the synthesis of polysubstituted furanonaphthoquinones (free to access for 4 weeks).

On the front cover:
This week’s cover is highlighting the work of Irene Izzo and colleagues at Università degli Studi di Salerno. Izzo et al. highlight the potential of cyclopeptoids as phase transfer catalysts, reporting the syntheses, binding affinities and catalytic abilities of 5 cyclohexapeptoids and comparing them with well-known phase-transfer catalysts.

Cyclopeptoids: a novel class of phase-transfer catalysts
Giorgio Della Sala, Brunello Nardone, Francesco De Riccardis and Irene Izzo
DOI: 10.1039/C2OB26764K

On the inside front cover:
Highlighted here is the work of Christopher J. Schofield and co-workers who report the success design of inhibitors that have the dual-action of binding to prolyl hydroxylase active sites and simultaneously depleting iron levels in cells by inducing the binding of a second iron ion at the active site.

Dual-action inhibitors of HIF prolyl hydroxylases that induce binding of a second iron ion
Kar Kheng Yeoh, Mun Chiang Chan, Armin Thalhammer, Marina Demetriades, Rasheduzzaman Chowdhury, Ya-Min Tian, Ineke Stolze, Luke A. McNeill, Myung Kyu Lee, Esther C. Y. Woon, Mukram M. Mackeen, Akane Kawamura, Peter J. Ratcliffe, Jasmin Mecinović and Christopher J. Schofield
DOI: 10.1039/C2OB26648B

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HOT: Synthesis of polysubstituted furanonaphthoquinones

09 Jan 2013

In this HOT paper, Wenwei Lin and colleagues at National Taiwan Normal University report an efficient and versatile synthesis of polysubstituted furanonaphthoquinones. The strategy developed by Lin et al. is based on the synthesis of a series of novel poly-functionalized phosphorus zwitterions via three-component reactions, which are then involved in an intramolecular Wittig reaction.

The flexibility of this synthesis is such that furanonaphthoquinones with various substituents at the 2- and 3-positions of the furan segment can be produced.

To find out more about this method download the article for free today.

A versatile and practical method for regioselective synthesis of polysubstituted furanonaphthoquinones
Zong-Ze Wu, Yeong-Jiunn Jang, Chia-Jui Lee, Yen-Te Lee and Wenwei Lin
DOI: 10.1039/C2OB26986D

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Meet the OBC team – See where and when you can meet us in 2013

03 Jan 2013

The Organic & Biomolecular Chemistry team will be attending a number of conferences in 2013 and we would be delighted to meet you there.

Dr Marie Cote, Deputy Editor

Dr Richard Kelly, Managing Editor

We’re also the team behind OBC‘s sister journals MedChemComm, Natural Product Reports, and the latest addition to the portfolio, Toxicology Research, so we’ll happily discuss your interdisciplinary research work. In fact, many of our authors choose to publish their research across all of these titles.

Here are just some of the conferences where you can meet us in the coming months:

• RSC India Roadshow, visiting Kolkata, Pune and Bangalore – 5-11 February 2013, India – View the full details, including the confirmed speakers’ list– Meet Richard
• Society of Toxicology’s 52nd Annual Meeting –10-14 March 2013, San Antonio, Texas, USA – Meet Marie
• 40th Lakeland Heterocyclic meeting– 9-13 May 2013, Grasmere, UK – Meet Marie
• Frontiers in Medicinal Chemistry (EFMC)– 23-26 June 2013, San Francisco, USA – Meet Richard
• 8-ISMSC (International Symposium on Macrocyclic and Supramolecular Chemistry) – 07-11 July 2013, Washington DC, USA – Meet Richard
• ESOC 2013 (8th European Symposium on Organic Chemistry) – 08-12 July 2013, Marseille, France – Meet Marie
• OMCOS 17 (IUPAC Conference on Organometallic Chemistry Towards Organic Synthesis)- 28 July to 01 August 2013, Fort Collins, USA – Meet Marie
• EUROTOX 2013– 01-04 September 2013, Interlaken, Switzerland – Meet Marie
• Fall ACS meeting– 08-12 September 2013, Indianapolis, USA – Meet Richard
• Asian Medicinal Chemistry Conference – October 2013, Taipei, Taiwan – Meet Richard
• 15th BMOS – Brazilian Meeting on Organic Synthesis, 10-13 November 2013, Campos do Jordão, Brazil – Meet Richard