Archive for the ‘Subject Areas’ Category

Just Mix – Zeolitic Imidazolate Framework Synthesis

Zeolitic-imidazolate frameworks (ZIFs) are a sub-class of metal-organic frameworks (MOFs) with a wide range of potential uses including: CO2 capture, storage, catalysis, sensing and biomedicine. Unfortunately their synthesis often requires additives or reaction activation, and if they can be made without these it often requires long reaction times or results in low yields, neither of which is ideal for a substance with such wide potential uses.

To overcome this bottleneck in ZIF synthesis, Roland Fischer and his team from the Inorganic Chemistry department in Ruhr Universitat Bochum in Germany have developed a rapid room temperature synthesis approach. I am a great believer in developing approaches that can be carried out at room temperature and pressure and this is one such elegant solution. The authors produce nanocrystals of ZIFs in a very narrow size distribution by careful selection of the precursors and the solvents they are dissolved in. The solutions are then mixed and stirred to create the ZIF crystals; it really is that elegant.

ZIF crystals showing very narrow size distribution

The authors then used these crystals to fabricate thin films on quartz crystal microbalances and used this device to detect volatile organic solvents. This demonstration leads the way into exploring other uses of these ZIFs – after all, they can now be easily made. But to find out which solvent and precursors you need to use, you’ll have to read the paper today!

To read the details, check out the ChemComm article in full:
Rapid room temperature synthesis of zeolitic-imidazolate framework (ZIF) nanocrystals
Min Tu, Christian Wiktor, Christoph Rosler and Roland Fischer
Chem. Commun., 2014, 50, 13258-13260
DOI: 10.1039/C4CC06491G  

    

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Optimising multi-enzyme reactions – enabling enzymatic encoding

The ability to mimic cascade and linked enzyme reactions has potential applications for disease diagnosis and pharmaceutical manufacturing, to name just two. However, the optimisation of the ratios of the interacting enzymes can be a time consuming step when carried out using standard solution based enzyme assays. With the problem becoming exponentially more difficult with the number of enzymes in the system, Jun Ge and Zheng Liu of the Department of Chemical Engineering at Tsinghua University, with colleagues, have looked to overcome this hurdle by developing a simple, fast and high throughput method based on ink-jet printing. 

The team replaced the colour inks in a standard inkjet printer with enzyme and substrate solutions. The ratio of these solutions could be controlled by varying the overall colour that was printed. Optimisation of cascade and coupled enzymatic reactions could be carried out rapidly and inexpensively compared to the standard solution based method. 

Enzymatic encryption, decoding and deletion of information

Precise two-dimensional control of enzyme placement via ink-jet printing also raises the possibility of creating 2D codes with enzymatic encryption built in, as the figure demonstrates. I don’t want to give the secret of this encryption technique away so you’ll have to read the paper today. 

To read the details, check out the ChemComm article in full: 

Ink-jet printing an optimal multi-enzyme system
Yifei Zhang, Fengjiao Lyu, Jun Ge, Zheng Liu
Chem. Commun., 2014, Accepted Article
DOI: 10.1039/C4CC06158F 

 

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Inducing β-Peptide Structures from the Inside Out

The synthesis of tailor-made peptide chains represents a powerful tool for tuning the structure and properties of peptides, allowing for the development of  analogues for medical, technological and synthetic purposes.

For example, the β-peptide is a synthetic peptide, which, in contrast to its naturally-occurring α-peptide analogue, is bonded through the β-carbon rather than the α-carbon. As a result of this seemingly small structural change, alterations in the peptide’s secondary structure and thermodynamic stability are observed.

Adding fluoride groups to peptide chains represents another way to alter and stabilise the folding structure through the presence of stronger hydrogen bonds and the introduction of fluorophilicity. This approach is generally employed for the addition of fluoride groups at ‘remote positions,’ spaced two or more methylene units from the peptide backbone. However, this method has less of an effect on the conformation of the peptide itself, and instead primarily influences the tertiary and quaternary self-aggregation of peptide chains, as a result of the fluorophilic effect of the functionalised peptide chains.

Much less commonly studied is the effect of incorporating fluorine groups in ‘direct proximity’ to the peptide chain, that is, directly attached to the β-carbon, where it is proposed that the intramolecular hydrogen bonding will be directly affected, and consequently, so too will the secondary structure of the peptide chain.

Yasuhiro Ishida and co-workers from the RIKEN Center for Emergent Matter Science have  shown that this ‘direct’ fluorination of β-peptides can, in fact, affect the higher order structures of these peptide chains. Specifically, a hexameric β-peptide was designed, which consisted of cyclohexane-based β-amino acids in the 1-,3-,4- and 6-positions and L-alanine derivatives in the 2- and 5-positions, where the L-alanine methyl groups were either native or perfluorinated.

Irrespective of the degree of perfluorination in the β-peptide, it was found that the chains were arranged in the same left-handed 14-helix structure, with the NH-amide of the second and fifth residues participating in stabilising intramolecular H-bonding interactions. Moreover, it was found that although the presence of fluoride groups did not noticeably alter the overall secondary structure of the β-peptide chains, the stability of these structures was dramatically enhanced, showing the significant effect that fluoride groups can have on the hydrogen-bond donating ability of NH-amides.

This new approach of modifying peptide chains offers an interesting method  for influencing the secondary, and higher order, structures of the compounds, as well as their kinetic and thermodynamic properties. The effect of these structural modifications offers the possibility of tuning the chemical and biological properties of these peptide chains for use in new types of antibiotics and synthetic systems.

Read this HOT ChemComm article in full!

Stabilization of β-peptide helices by direct attachment of trifluoromethyl groups to peptide backbones
Joonil Cho, Kyohei Sawaki, Shinya Hanashima, Yoshiki Yamaguchi, Motoo Shiro, Kazuhiko Saigo and Yasuhiro Ishida
Chem. Commun., 2014, 50, 9855–9858.

About the Writer

Anthea Blackburn is a guest web writer for Chemical Communications. Anthea is a graduate student hailing from New Zealand, studying at Northwestern University in the US under the tutelage of Prof. Fraser Stoddart (a Scot), where she is exploiting supramolecular chemistry to develop multidimensional systems and study the emergent properties that arise in these superstructures. When time and money allow, she is ambitiously attempting to visit all 50 US states before graduation.

 

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ChemComm Emerging Investigator Lectureship: Marina Kuimova

Dr Marina Kuimova (Imperial College London) was a recipient of the 2013 ChemComm Emerging Investigator Lectureship.

Marina has just completed her lectureship tour which took place in three locations in Europe from 7 – 13 July:

Kuimova

ChemComm Lectureship recipient Marina Kuimova giving her lecture at the IUPAC Symposium on Photochemistry

Our annual lectureship recognises an emerging scientist in the early stages of their independent academic career.

Professor Louise Berben (University of California Davis, USA) was the other recipient of the lectureship last year and we have just announced the 2014 winners – look out for further details of their lectureship tours soon.

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ChemComm Emerging Investigator Lectureship: Louise Berben

Professor Louise A. Berben (University of California Davis, USA) was one of the recipients of the 2013 ChemComm Emerging Investigator Lectureships.

ChemComm Lectureship

ChemComm Lectureship recipient Louise Berben with Deputy Editor Jane Hordern

Louise has just completed her lectureship tour which took her to Imperial College London and the University of Bristol in the UK; she concluded her tour by giving a plenary lecture at Challenges in Inorganic and Materials Chemistry (ISACS13), in Dublin, Ireland. Congratulations Louise!

Our annual lectureship recognises an emerging scientist in the early stages of their independent academic career.

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Congratulations to the Poster Prize winners at the Spring 2014 RSC Carbohydrate Group Meeting!

The Royal Society of Chemistry Carbohydrate Group held a successful meeting at the University of Bath from Wednesday 30 April–Thursday 1 May.

Three of our journals – ChemComm, Chemical Science and Organic & Biomolecular Chemistry – were delighted to sponsor a poster prize each and we would like to join in congratulating the winners. Jerry Turnbull, Chair of the RSC Carbohydrate Group, presented the prizes as follows:

ChemComm Poster Prize
‘Lactose as a ‘Trojan Horse’ for QD Cell Transport’
David Benito-Alifonso
University of Bristol

Chemical Science Poster Prize
The Biosynthesis of and Synthetic Approaches to Double C-glycosides’
Kevin Mahone
University of St. Andrews

Organic & Biomolecular Chemistry Poster Prize
‘L-glucose and D-idose from D-glucose’
Zilei Liu
Oxford University

Left to Right: David Benito-Alifonso; Kevin Mahoney; Zilei Liu; Jerry Turnbull

  For more details about the meeting, visit the RSC Carbohydrate 2014 website.

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Bath to host 2014 RSC Carbohydrate Meeting: 30 Apr-1 May

The University of Bath will host Spring 2014 Royal Society of Chemistry Carbohydrate Group Meeting from Wednesday 30 April – Thursday 1 May.

On Wednesday evening, the 2014 RSC Haworth Memorial Lecture will be delivered by David Crich, Schaap Professor of Organic Chemistry at Wayne State University, Detroit, USA.

The Meeting will also include the Inaugural Buchanan Award Lecture in honour of J Grant Buchanan, a former Visiting Professorial Fellow in the Department of Chemistry here at Bath, who died two years ago on 17 April 2012, at the age of 85. Grant was a great researcher and educator, and is remembered fondly for his infectious enthusiasm, collegiality and warm humanity.

 

The full programme of speakers for the Meeting is available online.

Local delegates are free to attend the lectures and are also encouraged to submit posters.

There will be a number of poster prizes awarded:

  • Chemical Science Poster Prize – Sponsored by the Royal Society of Chemistry Publishing
    Protein-Carbohydrate Interactions in Infectious Diseases (including certificate from Chemical Science)
  • Chem Comm Poster Prize – Sponsored by the Royal Society of Chemistry Publishing
    Boronic Acids in Saccharide Recognition (including certificate from Chem Comm)
  • OBC Poster Prize – Sponsored by Asynt
    DrySyn heating block starter kit (including certificate from OBC)

For further information about the Meeting, please contact the local Organising Committee – Tony James and Steve Bull or email: carbohydrate@bath.ac.uk

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Yong-Qiang Tu: ChemComm Editor’s Choice

Yong-Qiang TuMeet our Associate Editor in Organic Chemistry: Yong-Qiang Tu

Professor Yong-Qiang Tu (Lanzhou University, China) handles submissions to Chemical Communications (ChemComm) in organic chemistry.

Yong-Qiang’s research interests centre on tandem rearrangement reactions and their application to the total syntheses of bioactive alkaloids, synthetic studies of biologically active natural products, and the construction of C-C and C-N bonds via C-H functionalisations. We invite you to submit your urgent research to his editorial office.

Read Yong-Qiang’s Editor’s Choice selection of ChemComm articles by clicking on the links below – all articles are FREE for a limited period!

ChemComm is the home of urgent high quality communications from across the chemical sciences. With a world-renowned reputation for quality and fast times to publication (average of 40 days), ChemComm is the ideal place to publish your research.


Yong-Qiang Tu’s Editor’s Choice:

Enantioselective total synthesis of (+)-brazilin, (−)-brazilein and (+)-brazilide A
Xuequan Wang, Hongbin Zhang, Xiaodong Yang, Jingfeng Zhao and Chengxue Pan  
DOI: 10.1039/C3CC42385A

Domino Rh-catalyzed hydroformylation–double cyclization of o-amino cinnamyl derivatives: applications to the formal total syntheses of physostigmine and physovenine
Wen-Hua Chiou, Chien-Lun Kao, Jui-Chi Tsai and Yun-Man Chang  
DOI: 10.1039/C3CC43257B

An organocatalytic asymmetric sequential allylic alkylation–cyclization of Morita–Baylis–Hillman carbonates and 3-hydroxyoxindoles
Qi-Lin Wang, Lin Peng, Fei-Ying Wang, Ming-Liang Zhang, Li-Na Jia, Fang Tian, Xiao-Ying Xu and Li-Xin Wang   
DOI: 10.1039/C3CC45139A

A modular total synthesis of (±)-trigonoliimine C
B. Narendraprasad Reddy and Chepuri V. Ramana  
DOI: 10.1039/C3CC45512B

Synthetic modification of salinomycin: selective O-acylation and biological evaluation
Björn Borgström, Xiaoli Huang, Martin Pošta, Cecilia Hegardt, Stina Oredsson and Daniel Strand  
DOI: 10.1039/C3CC45983G

Highly enantioselective synthesis of chiral 7-ring O- and N-heterocycles by a one-pot nitro-Michael–cyclization tandem reaction
Renate Rohlmann, Constantin-Gabriel Daniliuc and Olga García Mancheño  
DOI: 10.1039/C3CC47397J

A new versatile approach to synthesise enantioenriched 3-hydroxyoxindoles, 1,3-dihydroisobenzofuran and 3-isochromanone derivatives by a rhodium-catalyzed asymmetric arylation–cyclization sequence
Yi Li, Dong-Xing Zhu and Ming-Hua Xu  
DOI: 10.1039/C3CC47927G

Enantioselective total synthesis of virosaine A and bubbialidine
Hideki Miyatake-Ondozabal, Linda M. Bannwarta and Karl Gademann
DOI: 10.1039/C3CC38783F

A catalytic multicomponent coupling reaction for the enantioselective synthesis of spiroacetals  
Lara Cala, Abraham Mendoza, Francisco J. Fañanás and Félix Rodríguez  
DOI: 10.1039/C3CC00118K

An easy access to fluoroalkanes by deoxygenative hydrofluorination of carbonyl compounds via their tosylhydrazones
Arvind K. Yadav, Vishnu P. Srivastava and Lal Dhar S. Yadav
DOI: 10.1039/C3CC00122A


You might also be interested in these ChemComm Themed Collections:

Organocatalysis
Guest edited by Keiji Maruoka, Hisashi Yamamoto, Liu-Zhu Gong and Benjamin List

Nucleic acids: new life, new materials
Guest edited by Mike Gait, Makoto Komiyama, David Liu, Jason Micklefield, Ned Seeman and Oliver Seitz

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Metal-organic frameworks (MOFs): ChemComm web-themed issue

We would like to celebrate with our authors and the community our web themed collection entitled “Metal-organic frameworks” recently published in ChemComm.

The issue was Guest Edited by Neil Champness (University of Nottingham, UK), Christian Serre (University of Versailles, France) and Seth Cohen (University of California, San Diego, USA), and contains an impressive collection of articles, including:

Feature Articles:

MOFs for CO2 capture and separation from flue gas mixtures: the effect of multifunctional sites on their adsorption capacity and selectivity
Zhijuan Zhang, Yonggang Zhao, Qihan Gong, Zhong Li and Jing Li
Chem. Commun., 2013, 49, 653-661, DOI: 10.1039/C2CC35561B

Commercial metal–organic frameworks as heterogeneous catalysts
Amarajothi Dhakshinamoorthy, Mercedes Alvaro and Hermenegildo Garcia
Chem. Commun., 2012, 48, 11275-11288, DOI: 10.1039/C2CC34329K

Communications:

Understanding excess uptake maxima for hydrogen adsorption isotherms in frameworks with rht topology
David Fairen-Jimenez, Yamil J. Colón, Omar K. Farha, Youn-Sang Bae, Joseph T. Hupp and Randall Q. Snurr
Chem. Commun., 2012, 48, 10496-10498, DOI: 10.1039/C2CC35711A

Targeted functionalisation of a hierarchically-structured porous coordination polymer crystal enhances its entire function
Kenji Hirai, Shuhei Furukawa, Mio Kondo, Mikhail Meilikhov, Yoko Sakata, Osami Sakata and Susumu Kitagawa
Chem. Commun., 2012, 48, 6472-6474, DOI: 10.1039/C2CC31421E

Take a look at the excellent work published in this themed collection: http://rsc.li/cc-mofs

We encourage you to share the link to this collection with your colleagues.

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2014 Cram Lehn Pedersen Prize in supramolecular chemistry – nominations open

The International Committee of the International Symposium on Macrocyclic and Supramolecular Chemistry is pleased to invite nominations for the Cram Lehn Pedersen Prize for young supramolecular chemists.

The Cram Lehn Pedersen Prize, named in honour of the winners of the 1987 Nobel Prize in Chemistry, recognises significant original and independent work in supramolecular chemistry.

Previous winners include:

photo-ogoshi-300x300.jpgc0sc00329h-p3.gifAmar-Flood.jpg

2013 – Tomoki Ogoshi from Kanazawa University in Japan

2012 – Jonathan Nitschke from the University of Cambridge in the UK

2011 – Amar Flood from Indiana University in the US

Those who are within 10 years of receiving their PhD on 31st December 2013 are eligible for the 2014 award. The winner will receive a prize of £2000 and free registration for the ISMSC meeting in Crystal City, Virginia. In addition to giving a lecture at ISMSC, a short lecture tour will be organised after the meeting in consultation with the Editor of Chemical Communications, the sponsor of the award.

Nomination Details:

Please send your CV, list of publications (divided into publications from your PhD and post-doc, and those from your independent work), and if desired, a letter of support, or these materials for someone you wish to nominate, to Prof. Roger Harrison (ISMSC Secretary) at rgharris@chem.byu.ed by 31st December 2013.


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