The integrated solution captures and displays discovery relevant information to help researchers identify novel drug candidates.
Scientific computing specialists at Genedata and ChemAxon have successfully integrated the chemical intelligence functionality of MarvinView with Hit Profiler, Genedata’s newly-released software solution for the prioritization of hits to leads. MarvinView is a platform-independent interactive visualization tool for viewing and managing chemical structure information.
The success of the integration rests on the fact that both companies use the same advanced software technologies, including Java 5’s generics and concurrency APIs. Proven technology standards such as these have been designed and developed to make integration between systems as seamless as possible.
Seamless integration ultimately brings benefit to the scientific end-user. It means that Genedata and ChemAxon can evolve their solutions independently, yet maintain interoperability that is robust and intuitive. “Our customers recognise the value of integrated technologies for solving their business problems”, explained Dr. Stephan Heyse, Head of Genedata Screener.
tobe freeman | alfa
Satellite data for agriculture
28.07.2017 | Julius-Maximilians-Universität Würzburg
Magnetic Quantum Objects in a "Nano Egg-Box"
25.07.2017 | Universität Wien
Spectrally narrow x-ray pulses may be “sharpened” by purely mechanical means. This sounds surprisingly, but a team of theoretical and experimental physicists developed and realized such a method. It is based on fast motions, precisely synchronized with the pulses, of a target interacting with the x-ray light. Thereby, photons are redistributed within the x-ray pulse to the desired spectral region.
A team of theoretical physicists from the MPI for Nuclear Physics (MPIK) in Heidelberg has developed a novel method to intensify the spectrally broad x-ray...
Physicists working with researcher Oriol Romero-Isart devised a new simple scheme to theoretically generate arbitrarily short and focused electromagnetic fields. This new tool could be used for precise sensing and in microscopy.
Microwaves, heat radiation, light and X-radiation are examples for electromagnetic waves. Many applications require to focus the electromagnetic fields to...
Strong light-matter coupling in these semiconducting tubes may hold the key to electrically pumped lasers
Light-matter quasi-particles can be generated electrically in semiconducting carbon nanotubes. Material scientists and physicists from Heidelberg University...
Fraunhofer IPA has developed a proximity sensor made from silicone and carbon nanotubes (CNT) which detects objects and determines their position. The materials and printing process used mean that the sensor is extremely flexible, economical and can be used for large surfaces. Industry and research partners can use and further develop this innovation straight away.
At first glance, the proximity sensor appears to be nothing special: a thin, elastic layer of silicone onto which black square surfaces are printed, but these...
3-D shape acquisition using water displacement as the shape sensor for the reconstruction of complex objects
A global team of computer scientists and engineers have developed an innovative technique that more completely reconstructs challenging 3D objects. An ancient...
26.07.2017 | Event News
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28.07.2017 | Health and Medicine
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28.07.2017 | Life Sciences