Some retrospectives on early studies of plant microtubules.

We pay tribute to the seminal paper 'A microtubule in plant cell fine structure' by Myron C. Ledbetter and Keith R. Porter (1963) by summarizing the very limited knowledge of plant cell ultrastructure that we had prior to that publication, and, by way of our three retrospective accounts, show how this paper stimulated and influenced subsequent research on plant microtubules. Micrographs of historical interest are presented that are either previously unpublished or from primary publications.

From ecophysiology to phenomics: some implications of photoprotection and shade-sun acclimation in situ for dynamics of thylakoids in vitro.

Half a century of research into the physiology and biochemistry of sun-shade acclimation in diverse plants has provided reality checks for contemporary understanding of thylakoid membrane dynamics. This paper reviews recent insights into photosynthetic efficiency and photoprotection from studies of two xanthophyll cycles in old shade leaves from the inner canopy of the tropical trees Inga sapindoides and Persea americana (avocado). It then presents new physiological data from avocado on the time frames of the slow coordinated photosynthetic development of sink leaves in sunlight and on the slow renovation of photosynthetic properties in old leaves during sun to shade and shade to sun acclimation. In so doing, it grapples with issues in vivo that seem relevant to our increasingly sophisticated understanding of ΔpH-dependent, xanthophyll-pigment-stabilized non-photochemical quenching in the antenna of PSII in thylakoid membranes in vitro.

Plastid stromules: video microscopy of their outgrowth, retraction, tensioning, anchoring, branching, bridging, and tip-shedding.

Stromules are stroma-containing tubules which can grow from the surface of plastids, most commonly leucoplasts and chromoplasts, but also chloroplasts in some tissues. Their functions are obscure. Stills from video rate movies are presented here. They illustrate interaction of stromules with cytoskeletal strands and the anchoring of stromules to unidentified components at the cell surface. Anchoring leads to stretching and relaxation of stromules when forces arising from cytoplasmic streaming act on the attached, freely suspended plastid bodies. Data on stromule growth, retraction, and regrowth rates are provided. Formation and movement of stromular branches and bridges between plastids are described. The shedding of a tip region into the streaming cytoplasm is recorded in frame-by-frame detail, in accord with early observations.