ISSN:
1615-6102
Keywords:
Erythrocladia subintegra
;
Freeze-fracture
;
Cell wall
;
Microfibril-synthesizing terminal complexes
Source:
Springer Online Journal Archives 1860-2000
Topics:
Biology
Notes:
Summary Cells of thalli at different developmental stages of the epiphytic marine red algaErythrocladia subintegra have been studied by freeze-etching. It was found that the plasma membrane exhibits linear microfibril-termnal synthesizing complexes (TCs), randomly distributed consisting of four rows of linearly-arranged particles (average diameter of particles 8.6 nm); each row of TCs consists of 5–33 particles (average 15). The TCs were observed on both fracture faces (PF and EF) but more clearly on the PF face. These structures appear to span both the outer and inner leaflets of the plasma membrane (“transmembrane complexes”)-The TCs have stable width (35 nm) and vary in length (41–311 nm, average 181 nm). The TCs subunits are highly ordered arrays forming a semicylinder. The average density of TCs on the PF face is 5.5TC/μm2. The microfibrils are randomly distributed and have a mean width of 39.4 nm (ranging from 16 to 70 nm). Many TCs are associated with the ends of microfibrils and microfibril imprints. The structural characteristics of linear TCs in the red algaErythrocladia are compared with those of the so far investigated Chlorophyta spp. All results favour the suggestion that TCs in the plasma membrane ofErythrocladia cells are involved in the biosynthesis, assembly and orientation of microfibrils.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF01343370
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