Systems Immunology

To see the immune system with the eyes of mathematics – that is the goal of the department Systems Immunology. Mathematical models help to faster and better understand diseases that are associated with immune functions. Read here how scientists use mathematics to investigate chronic inflammatory diseases, the regulation of adaptive immune responses, diabetes, cancer irradiation and aging.

    Dr Gang Zhao

    Gang Zhao


    +49 531 391-55217


    Curriculum Vitae

    He got his Bachelor (1998) and PhD (2006) in chemical physics, in University of Science and Technology of China. After that, he conducted his research in Jiangxi University of Technology. Since September 2011 he belonged to the Department of Systems Immunology in HZI.


    Type 2 Diabetes on a systemic level, with special interest in the role of inflammatory response


    Zhang L, Zhao G (2010) Superiority of single covalent modification in specificity: From deterministic to stochastic viewpoint. Journal of Theoretical Biology 264:1111–1119.

    Zhao G (2010) Probability of Entrainment, Synaptic Modification and Entrained Phase Are Phase-Dependent in STDP. Journal of Biological Systems 18:479–493.

    Zhao G (2010) Phase organization of circadian oscillators in extended gate and oscillator models. Journal of Theoretical Biology 264:367–376.

    Ruan Y, Zhao G (2009) Comparison and Regulation of Neuronal Synchronization for Various STDP Rules. Neural Plasticity 2009:1–13.

    Zhao G, Hou Z, Xin H (2006) Canard explosion and internal signal stochastic bi-resonance in the CO oxidation on platinum surface. Science in China Series B: Chemistry 49:133–139.

    Zhao G, Hou Z, Xin H (2006) Frequency-selective response of FitzHugh-Nagumo neuron networks via changing random edges. Chaos 16:043107.

    Zhao G, Hou Z, Xin H (2005) Canard explosion and coherent biresonance in the rate oscillation of CO oxidation on platinum surface. The Journal of Physical Chemistry A 109:8515–8519.

    Zhao G, Hou Z, Xin H (2005) Frequency-selective response of periodically forced coupled FHN models via system size multi-resonance. Physical Chemistry Chemical Physics 7:3634–3638.

    Zhao G, Xin H (2000) Traveling chaos wave in coupled map lattices with complete unidirectional coupling. Physics Letters A 268:181–185.


  • Prof Dr Michael Meyer-Hermann

    Michael Meyer-Hermann

    Head of Department

    +49 531 391 55210

    +49 531 391-55211


    +49 531 6181-5400

    +49 531 6181-7099


Audio Podcast

  • BRICS – Rechnen für die Infektionsforschung
    Die Mischung macht es – im richtigen Leben ebenso wie in der Infektionsforschung. Systembiologen am HZI und an der Technischen Universität Braunschweig mischen Laborerkenntnisse mit Computermodellen. Begleiten Sie Michael Meyer-Hermann virtuell an das BRICS und hören Sie weshalb es so sinnvoll ist, Biologie mit System zu betreiben.
  • Rechnen für die Gesundheit – Systembiologie bringt System in die Arthritis-Therapie
    Infektionsforscher arbeiten mit Zellkulturen, Krankheitserregern, nehmen Proben, messen und werten die Messergebnisse aus. Allerdings reicht das in der modernen Wissenschaft häufig nicht mehr aus – gerade wenn es um so komplexe Systeme wie uns Menschen geht. Hier kommen Computer ins Spiel: die Systembiologie. Hören Sie Michael Meyer-Hermann zu, wie er am Rechner die Jahrzehnte alte Therapie gegen Rheumatoide Arthritis auf den Kopf stellt...