CHLOROPLAST STRUCTURE OF THE CRYPTOPHYCEAE: Evidence for Phycobiliproteins within Intrathylakoidal Spaces

doi:10.1083/jcb.48.2.280

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CHLOROPLAST STRUCTURE OF THE CRYPTOPHYCEAE : Evidence for Phycobiliproteins within Intrathylakoidal Spaces

E. Gantt ¹, M. R. Edwards ¹, and L. Provasoli ¹

¹ From the Radiation Biology Laboratory, Smithsonian Institution, Rockville, Maryland 20852, the Division of Laboratories and Research, New York State Department of Health, Albany, New York 12201, and the Haskins Laboratories, New Haven, Connecticut 06520

Selective extraction and morphological evidence indicate thatthe phycobiliproteins in three Cryptophyceaen algae (Chroomonas,Rhodomonas, and Cryptomonas) are contained within intrathylakoidalspaces and are not on the stromal side of the lamellae as inthe red and blue-green algae. Furthermore, no discrete phycobilisome-typeaggregates have thus far been observed in the Cryptophyceae.Structurally, although not necessarily functionally, this isa radical difference. The width of the intrathylakoidal spacescan vary but is generally about 200–300 A. While the thylakoidmembranes are usually closely aligned, grana-type fusions donot occur. In Chroomonas these membranes evidence an extensiveperiodic display with a spacing on the order of 140–160A. This periodicity is restricted to the membranes and has notbeen observed in the electron-opaque intrathylakoidal matrix.

Submitted on April 29, 1970
Revised on September 1, 1970

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