I got my Master’s Degree in Biomathematics, Bioinformatics, and Computational Biology 2007 at Novosibirsk State University (NSU). I am working at Computer Proteomics Laboratory, Institute of Cytology and Genetics SB RAS. We develope computer system to analyze the coding features of functional sites by taking into account the exon structure of the gene, to detect the exons involved in shuffling in protein evolution, also to design protein-engineering experiments. Tools developed - SitEx http://www-bionet .sscc.ru/sitex/.
The German Network for Bioinformatics Infrastructure - de.NBI offers first class bioinformatics services including training and education to users in basic and applied life sciences research. In this network 40 projects belonging to eight service centers provide services that cover a wide variety of methods (genomics, proteomics, ...) and applications (from plants to humans). de.NBI-SysBio is the Systems Biology Service Center of de.NBI. In collaboration with FAIRDOM, de.NBI-SysBio serves the ...
Projects: de.NBI-SysBio, ExtremoPharm, ZucAt, Kinetics on the move - Workshop 2016, Example use cases, MIX-UP, Working Group Nicole Radde, MPIEvolBio-SciComp, CEPLAS – Cluster of Excellence on Plant Sciences
Web page: http://www.denbi.de
ZucAt - Sucrose (from german Zucker) translocation in Arabidopsis thaliana. Sucrose translocation between plant tissues is crucial for growth, development and reproduction of plants. Systemic analysis of this metabolic process and underlying regulatory processes can help to achieve better understanding of carbon distribution within the plant and the formation of phenotypic traits. Sucrose translocation from ‘source’ tissues (e.g. mesophyll) to ‘sink’ tissues (e.g. root) is tightly bound to the ...
Public web page: Not specified
Organisms: Arabidopsis thaliana
The database in ASCII format includes information on gene (gene models in ATG format, gene definition, catalyzed reactions in the model, external database refeneces, locus information, etc) used in the model
The model presents a multi-compartmental (mesophyll, phloem and root) metabolic model of growing Arabidopsis thaliana. The flux balance analysis (FBA) of the model quantifies: sugar metabolism, central carbon and nitrogen metabolism, energy and redox metabolism, proton turnover, sucrose translocation from mesophyll to root and biomass growth under both dark- and light-growth conditions with corresponding growth either on starch (in darkness) or on CO2 (under light). The FBA predicts that ...
Submitter: Maksim Zakhartsev
Model type: Metabolic network
Model format: SBML
Environment: Not specified
Organism: Arabidopsis thaliana
Investigations: Metabolic analysis of effects of sucrose transl... and 1 hidden item
Studies: Analysis of central carbon and energy metabolis... and 1 hidden item
Assays: Flux Balance Analysis of multi-compartment meta... and 1 hidden item
Date Published: 1st Dec 2016
Publication Type: Journal
Citation: BMC Plant Biol 16(1),262