I am Senior Scientist at Institute of Cytology and Genetics SB RAS in Novosibirsk. My research focus is computational genomics: high-throughput sequencing, ChIP-seq, human genome research (HUGO member), high performance computing in bioinformatics
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 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
Contributor: Maksim Zakhartsev
Model type: Metabolic network
Model format: SBML
Environment: Not specified
Organism: Arabidopsis thaliana
Investigations: Metabolic analysis of effects of sucrose transl...
Modelling analyses: Flux Balance Analysis of multi-compartment meta...
Date Published: 1st Dec 2016
Journal: BMC Plant Biol
Citation: BMC Plant Biol 16(1) : e00669