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Early development ofRhizobium-induced root nodules ofParasponia rigida. I. Infection and early nodule initiation (1984)

Lancelle, Susan A. ; Torrey, J. G.

Springer

Protoplasma 123 (1984), S. 26-37

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ISSN: 1615-6102

Keywords: Infection ; Invasion ; Multicellular Root Hairs ; Parasponia ; Rhizobium

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The first of two major steps in the infection process in roots ofParasponia rigida (Ulmaceae) following inoculation byRhizobium strain RP501 involves the invasion ofRhizobium into the intercellular space system of the root cortex. The earliest sign of root nodule initiation is the presence of clumps of multicellular root hairs (MCRH), a response apparently unique amongRhizobium-root associations. At the same time or shortly after MCRH are first visible, cell divisions are initiated in the outer root cortex of the host plant, always subjacent to the MCRH. No infection threads were observed in root hairs or cortical cells in early stages. Rhizobial entry through the epidermis and into the root cortex was shown to occur via intercellular invasion at the bases of MCRH. The second major step in the infection process is the actual infectionper se of host cells by the rhizobia and formation of typical intracellular infection threads with host cell accommodation. This infection step is probably the beginning of the truly symbiotic relationship in these nodules. Rhizobial invasion and infection are accompanied by host cortical cell divisions which result in a callus-like mass of cortical cells. In addition to infection thread formation in some of these host cortical cells, another type of rhizobial proliferation was observed in which large accumulations of rhizobia in intercellular spaces are associated with host cell wall distortion, deposition of electron-dense material in the walls, and occasional deleterious effects on host cell cytoplasm.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01283179

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Ultrastructure of freeze-substitutedFrankia strain HFPCcI 3, the actinomycete isolated from root nodules ofCasuarina cunninghamiana (1985)

Lancelle, Susan A. ; Torrey, J. G. ; Hepler, P. K. ; [et al.]

Springer

Protoplasma 127 (1985), S. 64-72

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ISSN: 1615-6102

Keywords: Actinomycete ; Casuarina ; Frankia ; Freeze-substitution ; Quick-freezing ; Ultrastructure

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Frankia strain HFPCcI 3 is an actinomycete isolated from root nodules ofCasuarina cunninghamiana. In culture it exhibits typicalFrankia morphology and may produce three distinct morphological forms: branching septate hyphae, terminal or intercalary sporangia, and specialized structures termed vesicles which are the purported site of nitrogenase activity. An examination of the ultrastructure of all three morphological forms using both conventional chemical fixation (CF) and quick-freezing followed by freeze-substitution (FS) reveals some interesting differences between the two fixation methods. Unique to FS material are: 1. smooth membrane profiles; 2. lack of mesosomes; 3. lack of discernible nucleoid regions with condensed chromatin; 4. clarity of cytoplasmic elements such as ribosomes and granular bodies; 5. large cytoplasmic tubules in hyphae and young sporangia; 6. outer wall layer not widely separated from the spherical portion of the vesicle, and 7. bundles of microfilaments in vesicles. The quality of preservation after FS appears to be far superior to that obtained with CF. Accordingly the structures observed after FS are thought to represent more faithfully the structure of the living cell.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01273702

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Ultrastructure of infected cells in the actinorhizal root nodules ofGymnostoma papuanum (Casuarinaceae) prepared by high pressure freezing and chemical fixation (1990)

Newcomb, W. ; Jackson, S. ; Racette, S. ; [et al.]

Springer

Protoplasma 157 (1990), S. 172-181

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ISSN: 1615-6102

Keywords: Cryopreservation ; High pressure freezing ; Actinomycete ; Nitrogen-fixation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Actinorhizal root nodules ofGymnostoma papuanuum (Casuarinaceae) were examined with transmission electron microscopy after being either fixed with glutalaldehyde and osmium tetroxide or frozen with liquid nitrogen at high pressure and freeze-substituted. Much better preservation was obtained by the cryopreservation method. Mitochondria, plastids, membranes und ribosomes were much better preserved in the frozen specimens than in the chemically fixed tissues. No nucleoids were observed in the microsymbiont in frozen specimens. In contrast nucleoid regions were present in chemically fixed specimens. The actinomycete microsymbiont differentiates small spherical-shaped symbiotic vesicles after the hyphae have grown and penetrated into most regions of the cytoplasm.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01322650

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