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Bursary opportunity for final year PhD students and postdocs to attend the Sao Paulo Advanced School Bioorganic Chemistry

The RSC is delighted to announce a fantastic bursary opportunity for PhD students/post docs to attend the Advanced School Bioorganic Chemistry taking place in Araraquara, Brazil, 30 June – 05 July 2013. The school includes talks and discussion sessions from highly qualified scientists (including Professor Steven V. Ley from the University of Cambridge) and leaders in the field covering bioorganic chemistry, involving aspects of natural products, medicinal chemistry, synthesis and spectroscopic methods.  The full programme can be viewed here: http://www.bioorgchemespca.iq.unesp.br/nodes/view/program

FAPESP (Sao Paulo Research Foundation) have invited the RSC to select 2 UK students to participate in the meeting. The bursary will cover international and domestic transportation, hotel accommodation, meals, registration fee and welcome reception. To apply please complete the form which is available download here and at the end of this post. Return to science@rsc.org by 19 April 2013 at 4pm.

Sao Paulo Advanced School in Bioorganic Chemistry

Closing date for application is 4pm on 19 April 2013
 
For any queries please contact science@rsc.org

Application Form for the Advanced School Bioorganic Chemistry

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Organic: By-product of Teflon manufacture used to generate compounds for medicinal, agrichemical and materials sciences

Scientists in Japan have used a by-product of Teflon manufacture to generate carbonyl compounds with trifluoromethyl groups. Organic molecules bearing a trifluoromethyl group have received much attention because of their unique physical and chemical properties, which are important in the fields of medicinal, agrichemical and materials sciences, say the researchers. Efficient ways of introducing CF3 groups into target molecules are being sought. The nucleophilic trifluoromethylation of carbonyl compounds using a Ruppert–Prakash reagent – (trifluoromethyl)trimethylsilane – is a well-explored strategy. But, (trifluoromethyl)trimethylsilane is expensive to prepare and is prepared from ozone-depleting bromotrifluoromethane. Fluoroform – a by-product of Teflon manufacture – has emerged as a potential environmentally benign alternative to (trifluoromethyl)trimethylsilane. It is also non-toxic, cheap and available in large quantities.

Graphical Abstract

A sterically demanding organo-superbase avoids decomposition of a naked trifluoromethyl carbanion directly generated from fluoroform
Hiroyuki Kawai, Zhe Yuan, Etsuko Tokunaga and Norio Shibata
Org. Biomol. Chem., 2013,
DOI: 10.1039/C3OB27368G

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Nanoscience: Using DNA origami as a scaffold to assemble uniform length carbon nanotubes

Scientists in the US have developed a convenient, versatile method to organise discrete length single-walled carbon nanotubes (SWNT) into complex geometries using 2D DNA origami tiles. Constructing intricate geometric arrangements of components is one of the central challenges of nanotechnology. The origami scaffolds considered here, both rectangular and triangular, were used to organise the nanotubes: several arrangements of nanotubes were constructed, with defined tube lengths and inter-tube angles. This method allows for uniform tube lengths and positional precision, leading to the reliable assembly of SWNTs into well-structured arrays.

Graphical Abstract

DNA origami templated self-assembly of discrete length single wall carbon nanotubes
Zhao Zhao, Yan Liu and Hao Yan
Org. Biomol. Chem., 2013, Advance Article
DOI: 10.1039/C2OB26942B

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Chemical biology and medicinal: New anticancer compounds

Scientists in Canada have reported the anti-leukaemia activity of four new prodigiosin analogues in vitro in a cancer cell line and in vivo in a zebrafish model. Prodigiosin is the parent member of a family of tripyrrolic natural products isolated from bacteria.

Graphical Abstract

Investigations regarding the utility of prodigiosenes to treat leukemia
Deborah A. Smithen, A. Michael Forrester, Dale P. Corkery, Graham Dellaire, Julie Colpitts, Sherri A. McFarland, Jason N. Berman and Alison Thompson
Org. Biomol. Chem., DOI: 10.1039/C2OB26535D

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Organic: Anticancer compound’s analogues exhibit potent cytotoxicity against cancer cell lines

Scientists in France and Lebanon had previously synthesised and evaluated the biological properties of a series of 1,1-diarylethylene analogues of isocombretastatin A-4, which is related to the natural combretastatin A-4, an antitumour agent. Now, they have studied the effects of structural modifications on the linker between the two aromatic rings of the isocombretastatin A-4 to better understand the structure-activity relationships associated with this series of 1,1-diarylethylene tubulin polymerisation inhibitors. The new compounds exhibit potent cytotoxicity against cancer cell lines.

Organic: Anticancer compound’s analogues exhibit potent cytotoxicity against cancer cell lines

Organic: Anticancer compound’s analogues exhibit potent cytotoxicity against cancer cell lines
Abdallah Hamze and Mouad Alami
Org. Biomol. Chem., 2012,
DOI: 10.1039/C2OB26253C

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Molecular fossils: new compounds from 4900-year-old wood

If you dug up a wooden artefact, how could you tell what type of tree it came from? French chemists have identified unique molecules from an ancient piece of oak that could hold the key.

Pierre Adam and co-workers from the University of Strasbourg, France, used gas chromatography-mass spectrometry to identify triterpenoid molecules, which appear to be related to the natural product oleanane, in a 4900-year-old wood sample collected from river sediments. The discovered triterpenoids are unusual as they only have an oxygen-containing functional group at the C-2 position, while triterpenoids from living trees either have this at C-3 or both C-2 and C-3. This crucial difference could be due to chemical breakdown of the molecules by micro-organisms in the environment where the wood is buried.

The transformation is important, as the structure of the molecules identified today can be directly traced back to the natural molecules that existed in the living wood, so they can be linked.

Read the full article in Chemistry World

And read the OBC paper, highlighted as being HOT by the referees, for free here:
Triterpenoids functionalized at C-2 as diagenetic transformation products of 2,3-dioxygenated triterpenoids from higher plants in buried wood
Gilles Schnell, Philippe Schaeffer, Estelle Motsch and Pierre Adam
DOI: 10.1039/C2OB26191J

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Organic: Potential new anthrax vaccine

Scientists in France and Germany have shown that a simplified version of an anthrax polysaccharide can be used as a potential vaccine against Bacillus anthracis. The disaccharide analogue of the anthrax tetrasaccharide is conjugated to bovine serum albumin, with the aim to obtain an antigen able to induce specific antibodies.

Potential new anthrax vaccine

Link to journal article:
Organic: Potential new anthrax vaccine
Cyrille Grandjean, Ophélie Milhomme, Suzanne M Köhler, David Ropartz, David Lesur, Serge Pilard, Florence Djedaïni-Pilard and Wolfgang Beyer
Org. Biomol. Chem., Accepted Manuscript, 2012
DOI: 10.1039/c2ob26131f

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Chemical biology and medicinal: Potential agents to treat Alzheimer’s disease

Scientists in Germany have worked on optimising compounds that reduce the formation of amyloid β-peptides, which play a crucial role in the development and progression of Alzheimer’s disease. The team varied the membrane anchor, spacer and pharmacophore building blocks on BACE1 inhibitors to make tripartite structures (assembled by covalent coupling of BACE1 inhibitors with membrane anchors via suitable spacers).

Several BACE1 inhibitors have already been reported, but here, the team has shown that the cellular activity of small-molecule BACE1 inhibitors can be significantly increased by membrane targeting via a spacer with a raftophilic membrane anchor.

Optimisation of BACE1 Inhibition of Tripartite Structures by Modification of Membrane Anchor, Spacer and Pharmacophore – Development of Potential Agents for the Treatment of Alzheimer’s Disease
Hans-Joachim Knölker
DOI: 10.1039/C2OB26103K

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Using Chemistry to improve Agricultural Productivity

Chemistry for Tomorrow’s World 2012: Using Chemistry to Improve Agricultural Productivity

6 pm, 26 September 2012
Chemistry Centre, Burlington House, London

Join us at the RSC’s Chemistry Centre in London to hear about how synthetic organic chemistry can help to feed the world.

Azoxystrobin is the world’s leading agricultural fungicide. It is a fully synthetic compound, whose invention was inspired by the structure and activity of the naturally-occurring fungicide strobilurin A. Today it is used worldwide to control fungi growing on over 120 types of crop, improving plant health, raising quality and increasing yield. The success of the project highlights the crucial importance of chemistry in meeting grand challenges such as global food security and the broader applicability of skills such as natural product synthesis. Our keynote speaker Dr John Clough led the team of chemists at Syngenta that invented azoxystrobin. He will discuss the key role that synthetic organic chemistry played in creating an effective and safe fungicide.

This event will be held in the Chemistry Centre on 26 September at the RSC’s recently refurbished building in Burlington House, London. Doors will open at 17:30 for refreshments. The event will begin at 18:00 and will finish with a wine reception. Please follow the link here for information and to register for the event.

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Trojan horse tuberculosis treatment

During the Trojan war, Greeks built a huge wooden horse, hid men inside it and left it outside the city of Troy. The Trojans, claiming it as a victory trophy, brought it into their city. That night, the Greek force crept out of the horse, opened the gates for the rest of the Greek army and they destroyed the city of Troy

The emergence of drug resistant bacterial strains has led to an urgent need for new antibiotic agents. Scientists in the US are utilising the iron uptake pathway of Mycobacterium tuberculosis as a ‘Trojan horse’ approach to tuberculosis treatment.

Marvin Miller at the University of Notre Dame and colleagues have synthesised analogues of iron scavenging compounds that contain a maleimide functional group for future drug conjugation. Miller explains that these compounds will be actively assimilated by the M. tuberculosis pathogen by the active iron transport system, but can also carry a lethal agent into the pathogen.

One of the challenges of synthesising drug conjugates is finding a suitable functional group to attach the drug to the conjugate. The maleimide functionalised mycobactin analogue synthesised by the team simplifies the synthetic route by reducing the need for protecting groups. Thiol-maleimide chemistry can then be used to attach the drug.

Derek Tan, an expert in rational drug design at the Memorial Sloan–Kettering Cancer Center, US, is enthusiastic about the work. He believes that the advantage of the maleimide functional group is that it can react with nucleophiles, which may already be present in a potential conjugate drug, as opposed to electrophiles, which generally need to be synthetically introduced into the conjugate drug. This maleimide–mycobactin analogue ‘will enable the future synthesis of a wider array of potential Trojan horse antibiotics’, says Tan.

Miller and co-workers found that the maleimide–mycobactin analogue displayed antibiotic activity against Mycobacterium tuberculosis, but it was inactive against a broad panel of Gram-positive and Gram-negative bacteria. ‘The use of siderophores [iron chelating compounds] to deliver antibiotics exclusively into a single type of bacteria (e.g., Mtb, P. aeruginosa, E. coli), could reduce the administration of broad-spectrum antibiotics, minimising exposure and therefore the development of drug resistance’ says Miller.

In the future, the team intends to use a rational approach for selecting drugs to attach to the maleimide–mycobactin analogue, starting with drugs that inhibit essential survival processes.

References
1. R E Juárez-Hernández, S G Franzblau and M J Miller, Org. Biomol. Chem., 2012, DOI: 10.1039/c2ob26077h

2. Chemistry World story by Alisa Becker

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