Abstract
Summary— Detailed investigations on the fine ultrastructural organization of different forms of proteinaceous nuclear inclusions (PNls) in chlorenchyma plant cells suggest they consist of the same elementary subunits. Previous high magnification of TEM micro‐graphs had shown that the amorphous type of inclusion (A) was mainly composed of elementary fibrils measuring 3.0–3.5 nm in diameter, with no orderly spatial arrangement. New computer image treatments of electron micrographs allowed us to establish that the 8.0–13.0 nm thick filaments — forming the fibrillar (F), crystalline (C) and lamellar (L) inclusions — consist of two elementary fibrils which are coiled in a helix with variable pitch, depending on the type of inclusion. A further secondary coiling of two filaments, about 8.0–9.0 nm in diameter, gives the 20.0–25.0 nm thick tubules which form the characteristic tubular inclusion (T). Correlating the distributive data of PNIs with observations on their ultrastructural morphology and with micrographs of partial aggregation or disgregation patterns of the inclusions, led to the hypothesis that the different forms are not different classes of proteins, but simply different stages of structural complexity of the same protein. To determine whether the intranuclear inclusion protein is nucleolar or nucleolus‐associated, cytochemical and immunocytochemical tests were performed on ultrathin sections or leaf lamina tissue in block. These techniques proved that PNIs do not belong to the class of argyrophilic proteins (AgNOR‐proteins), and particularly not nucleolin and fibrillarin, two of the major nucleolar proteins. Structural similarities to other plant inclusions, especially P‐proteins, and to animal and plant intermediate cytoskeletal filaments (IFs) are discussed with regard to the functional role of PNIs.
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