Preface |
Cytoskeleton and Cell Cycle / Section I: |
Microtubule dynamics in vitro and their relationship with cellular function / (D. Job) |
Structure and function of two molecular motors and their pathways / (R.H. Wade) |
The cellular machinery for chromosome movement / (J.R. McIntosh) |
The role of microtubules in the creation of order in the cell / (R.L. Margolis) |
Intracellular Communication - Membranes - Synapses - Time / Section II: |
Intracellular membrane traffic / (M. McCaffrye, B. Goud) |
Signaling in sensory cells |
Molecular sturcture and function of ion channels / (U.B. Kaupp) |
Theoretical models for oscillations in biochemical and cellular systems / (A. Goldbeter) |
Development of the Central Nervous System / Section III: |
An overview of nervous system development / (O. Pourquieacute;, F. Bourrat) |
Student Seminars / Section IV: |
Inhibition as binding controller at the level of a single neuron (Information processing in a pyramidal-type neuron) / (A.K. Vidybida) |
Isolated nerve cell response to laser irradiation and photodynamic / (A.B. Uzdenski) |
Lectures and Seminars presented at the summerschool but not published in the proceedings / Section V: |
The endomembrane system / (D. Sabatini) |
The history of the two-stage model for membrane protein folding / (D.M. Engelman) |
Post synaptic receptors and the organisation of the synapse / (R. Kelly) |
Short reports on Ph.D. student seminars |
Conclusion |
Relations between physics and biology / (B. Jacrot) |
Preface |
Cytoskeleton and Cell Cycle / Section I: |
Microtubule dynamics in vitro and their relationship with cellular function / (D. Job) |
Structure and function of two molecular motors and their pathways / (R.H. Wade) |
The cellular machinery for chromosome movement / (J.R. McIntosh) |
The role of microtubules in the creation of order in the cell / (R.L. Margolis) |