Overview of Mathematical Approaches Used to Model Bacterial Chemotaxis I: The Single Cell M. J. TindallS. L. PorterJ. P. Armitage Review Article 19 July 2008 Pages: 1525 - 1569
Overview of Mathematical Approaches Used to Model Bacterial Chemotaxis II: Bacterial Populations M. J. TindallP. K. MainiJ. P. Armitage Original Article 19 July 2008 Pages: 1570 - 1607
Synchrony and Asynchrony in a Fully Stochastic Neural Network R. E. Lee DeVilleCharles S. Peskin Original Article 30 May 2008 Pages: 1608 - 1633
Sensitivity Analysis of Reactive Ecological Dynamics Ariane VerdyHal Caswell Original Article 11 April 2008 Pages: 1634 - 1659
When Activators Repress and Repressors Activate: A Qualitative Analysis of the Shea–Ackers Model Tomáš GedeonKonstantin MischaikowEliane Traldi Original Article 22 July 2008 Pages: 1660 - 1683
Stochastic Models for Phototaxis Doron LevyTiago Requeijo Original Article 22 July 2008 Pages: 1684 - 1706
A Mathematical Model for the Effects of HER2 Overexpression on Cell Proliferation in Breast Cancer Amina EladdadiDavid Isaacson Original Article 22 July 2008 Pages: 1707 - 1729
Image-Guided Modeling of Virus Growth and Spread Eric L. HaseltineVy LamJames B. Rawlings Original Article 25 April 2008 Pages: 1730 - 1748
Modeling and Estimation of Kinetic Parameters and Replicative Fitness of HIV-1 from Flow-Cytometry-Based Growth Competition Experiments Hongyu MiaoCarrie DykesHulin Wu Original Article 22 July 2008 Pages: 1749 - 1771
Network Development in Biological Gels: Role in Lymphatic Vessel Development Tiina RooseAndrew C. Fowler Original Article 12 July 2008 Pages: 1772 - 1789
Saddle-Point Approximations, Integrodifference Equations, and Invasions Mark KotMichael G. Neubert Original Article 22 July 2008 Pages: 1790 - 1826