Jobs http://exaviz.simlab.ibpc.fr/index.php/jobs Thu, 21 Jan 2016 14:01:51 +0000 Joomla! - Open Source Content Management en-gb PhD Position on Interactive Simulations http://exaviz.simlab.ibpc.fr/index.php/jobs/41-phdmds http://exaviz.simlab.ibpc.fr/index.php/jobs/41-phdmds

(A PDF version is available by clicking here)

The interactive molecular simulations approach offers user to visualize in real time the result of a running simulation and apply different force constraints over few atoms. These constraints are taken into account during the simulation, allowing molecule of interest manipulation in order to model it, but also to address relevant challenges in the field of drug design.

However, despite the huge amount of computing performances available, the method used as reference, all-atoms molecular simulation, shows some limitations, foremost to deal with large crystallised structures, but also when applied to specific events time scale a researcher would supposes to observe (sometimes at the scale of one second, whereas we reach only few microseconds in the most ambitious simulations). Then, going through more efficient calculations, adapted to a coarser scale but still relevant on a biophysical point of view, appears to be essential. It would allow, on the first hand, to limit the hypothesis that must be tested by more expensive simulation, and, on the other hand, thanks to its interactive ability, to address modelisation and in silico building issues when dealing with large and complex structures.

 

In the LIMSI and the LBT, we are conjointly developing a well-adapted approach, able to address very complex molecular structures at larger time scales, compatible with high-performance constraints imposed by the interaction. The aim of this thesis will be then to refine this multi-scale approach based on a modelisation of biomolecules by spring networks, known to accurately render molecular mechanical properties. This apporach was inspired by the normal modes analysis and can be apply whatever the grain size we use (atom, coarse grain, residue, ...) and the biomolecule type modelled (protein, RNA, DNA, ...). This modelisation is supplemented by the integration of non-covalent interactions (steric and electrostatic) also applicable to different modelisation scales. Finally, the approach also integrates at a thinner scale a modelisation of proteins as articulated rigid bodies, technic inspired by robotic and high-performance physic engines used in video games. Moreover, they allow the global and local parameterization of a protein flexibility thanks to structural knowledge obtained from experiments or homology methods.

This approach, concretised in Biospring software (parallelised code with OpenMP and OpenCL, for which few processes have been partially parallelised on CPU and GPU with HMPP during portage project GENCI in 2010 – PPLC3D) already proved itself as an efficient approach for interactive modelisation in theoretical biochemistry [1] [2] [3], but needs a better transition to specific scales via more advanced optimisation technics as well as an hybrid portage on multicore (MPI/OpenMPI) and manycore (GPU-OpenCL). This transition to another scale will especially allow considering very large biological complexes like viral capsids, posing new challenges in term of performance. Furthermore, the last on going developments begin to integrate new experimental data like molecular envelops (SAX and CryoEM) bringing up a new reflexion on the most adapted data structures for efficient, performing and portable computing.

The partners LIMSI (Nicolas Férey) and LBT (Marc Baaden) will bring their theoretical and technical skills for the development of the biophysical code. The LBT will also propose a large range of biological applications to define priorities for the developments to be performed (membrane fusion phenomenon, neurotransmission, biological cues transmission, virus infection, ...). They will also valid the relevance of the approach to address the different issues previously evoked. The expertise of the Maison de la Simulation for algorithmic optimization and parallelization will be indispensable for the code transition to this new scale, which will be the main concern of this thesis.

Références :

[1] O. Delalande, N. Ferey, B. Laurent, M. Gueroult, B. Hartmann, and M. Baaden. Multi-resolution approach for interactively locating functionally linked ion binding sites by steering small molecules into electrostatic potential maps using a haptic device. In Proceedings of Pacific Symposium on Biocomputing (PSB'10), volume 15, p. 205-215, 2010.
[2] A. Saladin, C. Amourda, P. Poulain, N. Ferey, M. Baaden, M. Zacharias, O. Delalande, and C. Prevost. Modeling the early stage of dna sequence recognition within reca nucleoprotein filaments. Nucleic Acid Research, 38(19):6313-6323, 2010,
http://www.youtube.com/watch?v=onc3iNOn6_8, http://biospring.sourceforge.net/

[3] A. Tek, M. Chavent, M. Baaden, O. Delalande, P. Bourdot and N. Ferey (2012). Advances in Human-Protein Interaction - Interactive and Immersive Molecular Simulations, Protein-Protein Interactions - Computational and Experimental Tools, Weibo Cai and Hao Hong (Ed.), ISBN: 978-953-51-0397-4, InTech.
[4] Rader AJ, Chennubhotla C, Yang L-W, Bahar I, in "Normal Mode Analysis. Theory and Applications to Biological and Chemical Systems, The Gaussian Network Model: Theory and Applications." Eds Cui Q, Bahar I, Math & Comp. Biology Series, Chapman & Hall CRC Press, Taylor & Francis Group, p. 41-64, 2006.

Projets connexes :

  1. [5]  Projet ANR Exaviz (ANR-11-MONU-003), http://exaviz.simlab.ibpc.fr/index.php/exaaboutmenu/exaviz-labs

  2. [6]  EquipEx Digiscope, http://www.digiscope.fr/Welcome.html

  3. [7] EquipEx CACSICE, http://media.enseignementsup-recherche.gouv.fr/file/Fiches_equipex_vague_2/01/7/CACSICE_203017.pdf

 

]]>
baaden@smplinux.de (Marc Baaden) Jobs Sat, 09 Feb 2013 17:52:32 +0000
Postdoc or engineer position @ LBT http://exaviz.simlab.ibpc.fr/index.php/jobs/32-postdoc-or-engineer-position-lbt http://exaviz.simlab.ibpc.fr/index.php/jobs/32-postdoc-or-engineer-position-lbt

- Scientific Visualization & Computational Biology - Post Doctoral or engineer position at IBPC, Paris, France -

(PDF-page of this job offer)

Project description

We are seeking a highly motivated candidate to de- sign and implement a next generation visualization platform for analysis of large-scale molecular si- mulations. In particular, we target two grand chal- lenge applications: modeling a complete influenza virus and analyzing extensive simulations of the GLIC receptor that we recently published in Nature and PNAS, two leading journals. Project foundations were previously established, providing a well defined fra- mework to get started (FvNano). Using visual analy- tics approaches and high performance interactive graphics, you will implement readily usable state-of- art tools scaling up to the next generation of simula- tions. This position is a unique training opportunity in a multi-disciplinary environment in collaboration with four leading teams in France and two international partners in the U.K. and in Germany.

Qualification and experience

 

A PhD or engineer degree in relevant fields (Compu- ter Science, Chemistry/Bioinformatics,..) and at least one publication in a peer reviewed journal or at a lea- ding conference are required. The successful appli- cant should have a strong background in software development (visualization & graphics, shader pro- gramming, virtual reality, real time applications) and be proficient with latest hardware technologies. An ex- tensive expertise in computer simulations, in particu- lar molecular dynamics is highly desirable. The candi- date should also be familiar with at least one modern programming language. Evidence of the ability to un- dertake internationally competitive research genera- ting high quality publications is essential, as are good communication and organisational skills.

Funding is available immediately.


About the host institute

The "Institut de Biologie Physico-Chimique" was created in 1930 by the Foundation Edmond de Rothschild. It is associated with the CNRS (Centre National de la Recherche Scientifique), a leading international scientific institution offering an exceptional environment to scientists early in their carreer, with a dynamic international exposure anima- ted by regular seminars and meetings.

Research facilities

The host laboratory participates in Equipex and Labex excellence in science programs. As part of the CACSICE Equipex, the candidate will be involved in building a large high-resolution display wall to boost the ExaViz project and will have access to a state-of-art VR CAVE with 2-user adaptive stereoscopy for immersion.

 

Closing date: 28 February 2012

 

Interested candidates should send a CV and a statement of research interests, including the names of three referees with contact information, as PDF document to baaden@ibpc.fr.

When? 24 months starting ASAP

Where? Laboratoire de Biochimie Théorique, Paris, France

Salary: starting 2500 €/month (before tax)

Team Leader: Marc Baaden

 

]]>
baaden@smplinux.de (Marc Baaden) Jobs Sat, 09 Feb 2013 00:29:31 +0000