PT - JOURNAL ARTICLE AU - Ion Bica AU - Thomas Hillen AU - Kevin J. Painter TI - Aggregation of biological particles under radial directional guidance AID - 10.1101/096602 DP - 2016 Jan 01 TA - bioRxiv PG - 096602 4099 - http://biorxiv.org/content/early/2016/12/23/096602.short 4100 - http://biorxiv.org/content/early/2016/12/23/096602.full AB - Many biological environments display an almost radially-symmetric structure, allowing proteins, cells or animals to move in an oriented fashion. Motivated by specific examples of cell movement in tissues, pigment protein movement in pigment cells and animal movement near watering holes, we consider a class of radially-symmetric anisotropic diffusion problems, which we call the star problem. The corresponding diffusion tensor D(x) is radially symmetric with isotropic diffusion at the origin. We show that the anisotropic geometry of the environment can lead to strong aggregations and blow-up at the origin. We classify the nature of aggregation and blow-up solutions and provide corresponding numerical simulations. A surprising element of this strong aggregation mechanism is that it is entirely based on geometry and does not derive from chemotaxis, adhesion or other well known aggregating mechanisms. We use these aggregate solutions to discuss the process of pigmentation changes in animals, cancer invasion in an oriented fibrous habitat (such as collagen fibres), and sheep distributions around watering holes.JTB classification: 21.050, 21.160, 52.250, 71.060