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The role of kinetosome-associated organelles in the attachment of encysting secondary zoospores ofSaprolegnia ferax to substrates (1989)

Lehnen, L. P. ; Powell, Martha J.

Springer

Protoplasma 149 (1989), S. 163-174

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ISSN: 1615-6102

Keywords: Adhesion ; Carbohydrates ; Exocytosis ; K-bodies ; Lectins ; Saprolegnia ; Ultrastructure

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Electron and fluorescence microscopy were used to identify organelles involved in attachment of secondary zoospores ofSaprolegnia ferax as they were transformed into secondary cysts. When secondary zoospores were exposed to 1.0% peptone in the absence or presence of a substrate, they began to encyst. If substrates were present when encystment was induced, the groove surface of the secondary zoospores adhered to them. The first event in attachment was secretion of contents of the kinetosome-associated organelle (K-body), which was typically oriented with the tubule-filled cavity positioned toward the cell surface of the groove region in the zoospore. The tubules which contained carbohydrates became coarsely granular, the matrix became more fibrous, and the shell remained along the membrane concavity that was formed as the K-body fused with the plasma membrane. Five minutes later, a cyst coat appeared, and cysts were not readily dislodged from a substrate. The concavity was no longer found, presumably because it had evaginated; but a layered pad of adhesion material was between the cyst coat and substrate. The layers of the adhesion pad corresponded to the structure of the matrix of K-bodies. As with the tubules of the K-body, the coarsely granular portion at the edge of the pad stained for carbohydrates. Similarly, the lectins WGA and GS-II labeled with fluorescein stained the rim of the adhesion pad on cysts, indicating the presence of glycoconjugates containing N-acetylglucosamines. Because globular areas near the kinetosomes and groove of zoospores (where K-bodies were located) also bound WGA and GS-II, K-bodies contained the same carbohydrates as the adhesion pad. We conclude that K-bodies function in the attachment of encysting zoospores to substrates as the cell differentiates. The tubular portion of the K-body matrix contains carbohydrates which might assist in the adhesion process.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01322988

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Terminology and nomenclature of protist cell surface structures (1994)

Preisig, H. R. ; Anderson, O. R. ; Corliss, J. O. ; [et al.]

Springer

Protoplasma 181 (1994), S. 1-28

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ISSN: 1615-6102

Keywords: Protists ; Algae ; Fungi ; Protozoa ; Cell surface structures ; Terminology ; Nomenclature

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The use of a precise terminology is important to the unambiguous exchange of information in the multidisciplinary area of protistology. In this paper we attempt to establish clear definitions, give illustrations, and comment on the different terms used for cell surface structures of protists and related organisms.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01666386

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Isolation and ultrastructural identification of membranes from the fungusGilbertella persicaria (1982)

Powell, Martha J. ; Bracker, Ch. E. ; Morré, D. J.

Springer

Protoplasma 111 (1982), S. 87-106

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ISSN: 1615-6102

Keywords: Fungi ; Gilbertella persicaria ; Membranes ; Mitochondria ; Organelle isolation ; Plasma membrane ; Ultrastructure ; Vacuoles

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Methods are described for isolating and identifying subcellular membranes from walled hyphae ofGilbertella persicaria. Differences in thickness and symmetry of membranes and in contents of vesicles were used to distinguish different types of membranes. Mitochondria, vacuoles, plasma membrane, and vesicles with attached ribosomes from homogenized germlings equilibrated at the 1.2/1.4 M interface in discontinuous sucrose gradients. Accelerated flotation in centrifuged Ficol-sucrose gradients resulted in the additional separation of the mixed membranes into three fractions: one contained predominantly intact mitochondria, another was composed of vacuoles and vesicles coated with ribosomes, and a third was enriched in plasma membranes. Based upon morphometric analysis, these fractions contained 92% mitochondria, 53% vacuoles, and 89% plasma membranes, respectively. The source of vesicles coated with ribosomes was investigated since rapidly growing hyphae ofG. persicaria contained little rough endoplasmic reticulum as compared with other classes of membranes. Reconstruction from electron micrographs of mitochondrial fragmentation and vesiculation suggested that most of the ribosome-coated vesicles originated from disrupted mitochondria rather than from rough endoplasmic reticulum. The study demonstrates the utility of ultrastructural markers to identify membranesin vitro independent of, or as an adjunct to, cytochemical and biochemical markers.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01282067

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