Lectures on Mathematics in the Life Sciences 1994; 135 pp; softcover Volume: 24 ISBN10: 0821811754 ISBN13: 9780821811757 List Price: US$46 Member Price: US$36.80 Order Code: LLSCI/24
 As the techniques of modern molecular biology continue to revolutionize experimental design in cell biology, mathematical modeling and analysis become increasingly necessary and feasible. The papers in this collection expand on invited lectures presented at the Symposium on Some Mathematical Questions in Biology: Cell Biology, held in November 1992 in Denver, Colorado. The work reviewed in the papers demonstrates the power of combining mathematics and experiment to study a number of cell processes, including: protein transport in nerve axons, formation of transport vesicles at the Golgi, molecular motion in cell membranes, cell adhesion, \(T\) lymphocyte activation, and cellular responses to receptor aggregation. The volume is an important contribution to the literature, as it introduces mathematicians to a growing application area and cell biologists to new tools and results. The individual articles can be used as readings in a course on mathematical modeling. Individual members of the Society for Industrial and Applied Mathematics and the Society for Mathematical Biology may order at the individual member prices. Readership Researchlevel mathematical biologists (including mathematicians, physicists, and engineers) and cell biologists. Table of Contents  M. C. Reed and J. J. Blum  Mathematical questions in axonal transport
 E. Odell and G. Oster  Curvature segregation of proteins in the Golgi
 E. L. Elson and H. Qian  Measurements of molecular transport in small systems
 M. Dembo  On peeling an adherent cell from a surface
 J. J. Linderman, N. G. Berry, and D. F. Singer  Toward quantifying the activation of helper \(T\) lymphocytes by antigen presenting cells
 B. Goldstein and C. Wofsy  Aggregation of cell surface receptors
