STRUCTURAL DIFFERENTIATION OF STACKED AND UNSTACKED CHLOROPLAST MEMBRANES: Freeze-Etch Electron Microscopy of Wild-Type and Mutant Strains of Chlamydomonas

doi:10.1083/jcb.48.3.594

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STRUCTURAL DIFFERENTIATION OF STACKED AND UNSTACKED CHLOROPLAST MEMBRANES : Freeze-Etch Electron Microscopy of Wild-Type and Mutant Strains of Chlamydomonas

Ursula W. Goodenough ¹ and L. Andrew Staehelin ¹

¹ From The Biological Laboratories, Harvard University, Cambridge, Massachusetts 02138.

Dr. Staehelin's present address is the Department of Molecular, Cellular and Developmental Biology, The University of Colorado, Boulder, Colorado 80302

Wild-type chloroplast membranes from Chlamydomonas reinhardiexhibit four faces in freeze-etchreplicas: the complementaryBs and Cs faces are found where the membranes are stacked together;the complementary Bu and Cu faces are found in unstacked membranes.The Bs face carries a dense population of regularly spaced particlescontaining the large, 160 ± 10 A particles that appearto be unique to chloroplast membranes. Under certain growthconditions, membrane stacking does not occur in the ac-5 strain.When isolated, these membranes remain unstacked, exhibit onlyBu and Cu faces, and retain the ability to carry out normalphotosynthesis. Membrane stacking is also absent in the ac-31strain, and, when isolated in a low-salt medium, these membranesremain unstacked and exhibit only Bu and Cu faces. When isolatedin a high-salt medium, however, they stack normally, and Bsand Cs faces are produced by this in vitro stacking process.We conclude that certain particle distributions in the chloroplastmembrane are created as a consequence of the stacking process,and that the ability of membranes to stack can be modified bothby gene mutation and by the ionic environment in which the membranesare found.

Submitted on June 22, 1970
Revised on July 21, 1970

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