Journal of Systems Biology

ISSN: Coming Soon

JSB

Aims and Scope

Journal of Systems Biology is a comprehensive, open access, peer-reviewed journal. This journal deals with highest-quality manuscripts which specify and describe the development activities conducted in the field of Systems Biology.
Journal of Systems Biology packs each issue with articles of types Research, Review, Literature review, Conference proceedings, Case reports, Short communication, Thesis, Letter to editor and Editorials in experimental and theoretical aspects of the function of biological systems at the molecular, cellular or organismal level, in particular, those addressing the engineering of biological systems, network modelling, quantitative analyses, integration of different levels of information and synthetic biology.
JSB focuses on  the use of system techniques including cellular, proteomic, genomic, metabolomic, bioinformatic, molecular, and biochemical and translational research.

Research that is directed towards developing new or enhanced technologies for clinical medicine or scientific research is of significant interest to the journal.

  • Ab initio & density functional methods
  • Algorithm development
  • Algorithms for modelling
  • Algorithms for simulation
  • Anti–cancer nano drugs
  • Applied mathematics
  • Artificial intelligence
  • Atr–ftir spectroscopy
  • Big data acquisition
  • Big data analysis
  • Biochemistry
  • Bioinformatics databases
  • Biological modelling
  • Biomarkers
  • Biomedical image processing
  • Biomedical informatics
  • Biomolecular spectroscopy
  • Biophysical chemistry
  • Biosensors
  • Cell simulation and modelling
  • Chemotherapeutic strategies
  • Clinical systems biology
  • Comparative proteomics
  • Complex networks theory
  • Complexity of gene regulation
  • Complexity of metabolic pathways
  • Computational algorithms
  • Computational chemistry
  • Computational modeling of disease
  • Computational tools
  • Data mining methods for genomics
  • Data mining methods for proteomics
  • DNA assembly
  • DNA clustering
  • DNA mapping
  • DNA/RNA hypermethylation
  • DNA/RNA monitoring
  • Dynamic responses of networks to perturbations
  • Dynamically-changing entities
  • Ecological modelling
  • Epigenomics
  • Functional genomics
  • Gene annotation
  • Gene expression analysis
  • Gene expression microarrays
  • Gene identification
  • Genomics
  • Genomics scale modelling
  • Infectious diseases and host-pathogen interaction
  • Information theoretic approaches
  • Integration of heterogeneous data
  • Integrative analysis
  • Integrative network
  • Intelligent molecules
  • Laser
  • Layered multiplex networks
  • Management of genomics data
  • Management of proteomics data
  • Mathematical biology
  • Mathematical chemistry
  • Mathematical modeling of cancer
  • Mathematical modeling of diabetes
  • Mathematical modeling of infectious diseases
  • Mathematical modelling
  • Medicinal chemistry
  • Modern electronic structure computations
  • Molecular diagnostics
  • Molecular dynamics
  • Molecular modelling
  • Molecular simulation
  • Nano chemistry
  • Nanotechnology in genomics
  • Nanotechnology in proteomics
  • Network dynamics
  • Network topology
  • Numerical chemistry
  • Physics in biological systems
  • Proteomics scale modelling
  • Statistical computation and applications
  • Structural genomics
  • Synchrotron radiation
  • Synthetic biology
  • System dynamic simulation
  • System dynamics
  • Systems biology
  • Temporal dynamics of biological signals
  • Theoretical chemistry
  • Transcriptional evolution
  • Transcriptional network behaviour
  • Transcriptional organismal phenotype
  • Transcriptional regulatory mechanisms
  • Transcriptomics
  • Translational systems biology
  • Tumor biology