Laser light-scattering analysis of protoplasmic streaming in the slime mold physarum polycephalum

• Published in: Biochimica et biophysica acta Vol. 496; no. 1; pp. 212 - 224
• Main Authors: Newton, S.A., Ford, N.C., Langley, K.H., Sattelle, D.B.
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier B.V 24.01.1977
• Subjects: Cytoplasm - physiology; fungi; Lasers; Movement; Myxomycetes - physiology; Physarum - physiology; Physarum - ultrastructure; Scattering, Radiation
• ISSN: 0304-4165; 0006-3002; 1872-8006; 1878-2434
• DOI: 10.1016/0304-4165(77)90130-1

Laser light scattering is shown to be an effective means of obtaining a rapid, objective assessment of dynamic changes in the intact plasmodium of the myxomycete Physarum polycephalum during bidirectional (shuttle) streaming. The motion of material in a 100 μm diameter region of a plasmodial vein was studied by following changes in the autocorrelation function of the fluctuations in the scattered light intensity. The autocorrelation function was recorded at 10 s intervals and analyzed to follow changes in the flow velocity of protoplasm associated with shuttle streaming. Rhythmic velocity changes and a “beating” pattern of velocity maxima were readily observed. In an attempt to locate the site of underlying structural changes in the vein responsible for the changing pattern of flow, the average scattered intensity was separated into components derived from moving and stationary scatterers. Periodic variations in the light intensity due to stationary scatterers are related to the streaming cycle and indicate the occurrence of important structural changes in the vein walls. Two possible interpretations of the data are offered; one involving gross dynamic changes in vein structure, the other involving the formation, contraction, or breakdown of fibrillar material in the vein wall during the streaming cycle.