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1.
While it is now recognised that transport within the endomembrane system may occur via membranous tubules, spatial regulation of this process is poorly understood. We have investigated the role of the cytoskeleton in regulating the motility and morphology of the motile vacuole system in hyphae of the fungus Pisolithus tinctorius by studying (1) the effects of anti-microtubule (oryzalin, nocodazole) and anti-actin drugs (cytochalasins, latrunculin) on vacuolar activity, monitored by fluorescence microscopy of living cells; and (2) the ultrastructural relationship of microtubules, actin microfilaments, and vacuoles in hyphae prepared by rapid-freezing and freeze-substitution. Anti-microtubule drugs reduced the tubular component of the vacuole system in a dose-dependent and reversible manner, the extent of which correlated strongly with the degree of disruption of the microtubule network (monitored by immunofluorescence microscopy). The highest doses of anti-microtubule drugs completely eliminated tubular vacuoles, and only spherical vacuoles were observed. In contrast, anti-actin drugs did not reduce the frequency of tubular vacuoles or the motility of these vacuoles, even though immunofluorescence microscopy confirmed perturbation of microfilament organisation. Electron microscopy showed that vacuoles were always accompanied by microtubules. Bundles of microtubules were found running in parallel along the length of tubular vacuoles and individual microtubules were often within one microtubule diameter of a vacuole membrane. Our results strongly support a role for microtubules, but not actin microfilaments, in the spatial regulation of vacuole motility and morphology in fungal hyphae.  相似文献   

2.
Cultures of Achlya sp., Phytophthora cinnamomi, Saprolegnia diclina, S. ferax, and S. parasitica, treated with 6-carboxyfluorescein diacetate solution, accumulate 6-carboxyfluorescein in a reticulate system of fine tubules. The network shows longitudinal polarity within the hyphae, tubules being finest toward the hyphal tips. In more mature subapical regions the network is connected with large vacuoles that also accumulate 6-carboxyfluorescein. A morphologically similar system has also been identified in freeze-substituted hyphae of S. ferax. The network is considered to be vacuolar, but differs from the tubular vacuole system of true fungi in that tubules are less motile, more frequently branched, and do not alternate with clusters of spherical vacuoles. The appearance of the network resembles patterns of calcium-sensitive dye staining and it is suggested that the vacuolar reticulum in the tip region of oomycete hyphae may act as a Ca2+ sink. The tubular reticulum in oomycetes is very fragile and can be shown with 6-carboxyfluorescein in only those hyphal tips with a motility and organelle distribution characteristic of growing hyphae with normal morphology. Diverse abnormal hyphae show a range of other fluorochrome localizations. These include large irregular compartments filled with fluorochrome, and fluorescent cytoplasm with organelles and vacuoles standing out in negative contrast. These localizations in abnormal hyphae are correlated with other structural changes indicative of damage. Special care is required in experiments with oomycetes to avoid such artefacts of localization. Copyright 1997 Academic Press. Copyright 1997 Academic Press  相似文献   

3.
Cultures ofAchlyasp.,Phytophthora cinnamomi, Saprolegnia diclina, S. ferax,andS. parasitica,treated with 6-carboxyfluorescein diacetate solution, accumulate 6-carboxyfluorescein in a reticulate system of fine tubules. The network shows longitudinal polarity within the hyphae, tubules being finest toward the hyphal tips. In more mature subapical regions the network is connected with large vacuoles that also accumulate 6-carboxyfluorescein. A morphologically similar system has also been identified in freeze-substituted hyphae ofS. ferax.The network is considered to be vacuolar, but differs from the tubular vacuole system of true fungi in that tubules are less motile, more frequently branched, and do not alternate with clusters of spherical vacuoles. The appearance of the network resembles patterns of calcium-sensitive dye staining and it is suggested that the vacuolar reticulum in the tip region of oomycete hyphae may act as a Ca2+sink. The tubular reticulum in oomycetes is very fragile and can be shown with 6-carboxyfluorescein in only those hyphal tips with a motility and organelle distribution characteristic of growing hyphae with normal morphology. Diverse abnormal hyphae show a range of other fluorochrome localizations. These include large irregular compartments filled with fluorochrome, and fluorescent cytoplasm with organelles and vacuoles standing out in negative contrast. These localizations in abnormal hyphae are correlated with other structural changes indicative of damage. Special care is required in experiments with oomycetes to avoid such artefacts of localization.  相似文献   

4.
Cytoplasmic dynein is a minus-end-directed microtubule motor that participates in multiple cellular activities such as organelle transport and mitotic spindle assembly [1]. To study the dynamic behavior of cytoplasmic dynein in the filamentous fungus Aspergillus nidulans, we replaced the gene for the cytoplasmic dynein heavy chain, nudA, with a gene encoding a green fluorescent protein (GFP)-tagged chimera, GFP-nudA. The GFP-NUDA fusion protein is fully functional in vivo: strains expressing only the GFP-tagged nudA grow as well as wild-type strains. Fluorescence microscopy showed GFP-NUDA to be in comet-like structures that moved in the hyphae toward the growing tip. Retrograde movement of some GFP-NUDA comets after they arrived at the tip was also observed. These dynamics of GFP-NUDA were not observed in cells treated with a microtubule-destabilizing drug, benomyl, suggesting they are microtubule-dependent. The rate of GFP-NUDA tip-ward movement is similar to the rate of cytoplasmic microtubule polymerization toward the hyphal tip, suggesting that GFP-NUDA is associated and moving with the polymerizing ends of microtubules. A mutation in actin-related protein Arp1 of the dynactin complex abolishes the presence of these dynamic GFP-NUDA structures near the hyphal tip, suggesting a targeting role of the dynactin complex.  相似文献   

5.
A gene (NhKIN1) encoding a kinesin was cloned from Nectria haematococca genomic DNA by polymerase chain reaction amplification, using primers corresponding to conserved regions of known kinesin-encoding genes. Sequence analysis showed that NhKIN1 belongs to the subfamily of conventional kinesins and is distinct from any of the currently designated kinesin-related protein subfamilies. Deletion of NhKIN1 by transformation-mediated homologous recombination caused several dramatic phenotypes: a 50% reduction in colony growth rate, helical or wavy hyphae with reduced diameter, and subcellular abnormalities including withdrawal of mitochondria from the growing hyphal apex and reduction in the size of the Spitzenkörper, an apical aggregate of secretory vesicles. The effects on mitochondria and Spitzenkörper were not due to altered microtubule distribution, as microtubules were abundant throughout the length of hyphal tip cells of the mutant. The rate of spindle elongation during anaphase B of mitosis was reduced 11%, but the rate was not significantly different from that of wild type. This lack of a substantial mitotic phenotype is consistent with the primary role of the conventional kinesins in organelle motility rather than mitosis. Our results provide further evidence that the microtubule-based motility mechanism has a direct role in apical transport of secretory vesicles and the first evidence for its role in apical transport of mitochondria in a filamentous fungus. They also include a unique demonstration that a microtubule-based motor protein is essential for normal positioning of the Spitzenkörper, thus providing a new insight into the cellular basis for the aberrant hyphal morphology.  相似文献   

6.
Phialocephala fortinii is a dark septate fungal endophyte that colonizes roots of many host species. Its effect on plant growth varies from being pathogenic to beneficial. The basic biology of this species has received little research, and thus the main objectives of this study were to determine cytological features of hyphae, including the nature of the vacuolar system, and whether polyphosphate was present in vacuoles. Both living hyphae and hyphae that had been rapidly frozen and freeze substituted before embedding were studied. A complex system of vacuoles, including a motile tubular vacuolar system, elongated vacuoles, and spherical vacuoles, was demonstrated in living hyphae by the fluorescent probe Oregon Green 488 carboxylic acid diacetate, using laser scanning confocal microscopy. The motile tubular vacuolar system was more prevalent at the hyphal tip than in more distal regions, whereas elongated vacuoles and spherical vacuoles were more abundant distal to the tip. All vacuoles contained polyphosphate as shown by labelling embedded samples with recombinant polyphosphate binding domain of Escherichia coli exopolyphosphatase, containing Xpress tag at the N-terminal end, followed by anti-Xpress antibody and a secondary antibody conjugated either to a fluorescent probe for laser scanning confocal microscopy or colloidal gold for transmission electron microscopy. The polyphosphate was dispersed in vacuoles. This was confirmed by staining embedded samples with 4',6-diamidino-2-phenylindole and viewing with UV light using epifluorescence microscopy. These cytological methods showed that the tubular vacuolar system had lower concentrations of polyphosphate than the spherical vacuoles. Lipid bodies were present around vacuoles.  相似文献   

7.
Kinesin-like calmodulin-binding protein (KCBP), a member of the Kinesin 14 family, is a minus end directed C-terminal motor unique to plants and green algae. Its motor activity is negatively regulated by calcium/calmodulin binding, and its tail region contains a secondary microtubule-binding site. It has been identified but not functionally characterized in the conifer Picea abies. Conifer pollen tubes exhibit polarized growth as organelles move into the tip in an unusual fountain pattern directed by microfilaments but uniquely organized by microtubules. We demonstrate here that PaKCBP and calmodulin regulate elongation and motility. PaKCBP is a 140 kDa protein immunolocalized to the elongating tip, coincident with microtubules. This localization is lost when microtubules are disrupted with oryzalin, which also reorganizes microfilaments into bundles. Colocalization of PaKCBP along microtubules is enhanced when microfilaments are disrupted with latrunculin B, which also disrupts the fine network of microtubules throughout the tip while preserving thicker microtubule bundles. Calmodulin inhibition by W-12 perfusion reversibly slows pollen tube elongation, alters organelle motility, promotes microfilament bundling, and microtubule bundling coincident with increased PaKCBP localization. The constitutive activation of PaKCBP by microinjection of an antibody that displaces calcium/calmodulin and activates microtubule bundling repositions vacuoles in the tip before rapidly stopping organelle streaming and pollen tube elongation. We propose that PaKCBP is one of the target proteins in conifer pollen modulated by calmodulin inhibition leading to microtubule bundling, which alters microtubule and microfilament organization, repositions vacuoles and slows organelle motility and pollen tube elongation.  相似文献   

8.
R. J. Howard  J. R. Aist 《Protoplasma》1977,92(3-4):195-210
Summary Effects of treatment with methyl benzimidazole-2-ylcarbamate (MBC) on living hyphal tip cells ofFusarium acuminatum were determined with phase contrast light microscopy. These included (i) displacement of mitochondria from hyphal apices, (ii) disappearance of Spitzenkörpers, (iii) reduction of linear growth rate, and (iv) metaphase arrest of all mitoses: responses i–iii were not a result of effects on mitosis. Since all of these responses theoretically could have resulted from an MBC effect on microtubule structure and/or function, heavy water (D2O) was used to counteract MBC. Treatments of hyphae with MBC + D2O caused quantitative responses, i–iii above, intermediate between those to the separate reagents, and some nuclei of these hyphae were not arrested at mitosis. Moreover, several nuclei fragmented (multimicronucleation) in a manner apparently similar to mammalian nuclei treated with antitubulin agents. Thus, the effects of MBC on apical organization, Spitzenkörper integrity, hyphal growth and mitosis could have been mediated through interference with microtubules.  相似文献   

9.
Ashford  Anne E  Allaway  William G 《Plant and Soil》2002,244(1-2):177-187
Mycorrhizal fungi, to be effective for the plant, must be able to transfer mineral nutrient elements from sites of uptake at hyphal tips across various distances to the exchange region in the mycorrhiza. Vacuoles are likely to be important in this transport, since they contain elements of nutritional significance in abundance. In tip cells of hyphae of most fungi –- known to include three ectomycorrhizal basidiomycetes, an ericoid mycobiont, and two arbuscular mycorrhizal fungi –- the vacuoles form a motile tubular reticulum. The vacuoles are most active in hyphal tips, but non-motile vacuoles at a distance from the tip can be induced to become motile by environmental changes. Neither the tubular vacuolar reticulum nor its contents are properly preserved by conventional fixation and embedding. Vacuolar tubules are readily shown in vivo with fluorescent tracers, throughout the extramatrical mycelium and in outer hyphae of the sheath in eucalypt mycorrhizas synthesised with Pisolithus sp., but they have proved harder to label in field-collected ectomycorrhizas and ericoid mycorrhizas. Freeze-substitution does preserve the structure of vacuoles and vacuolar tubules, and careful anhydrous techniques allow them to be microanalysed, indicating high content of K and P in vacuoles of hyphal tips, and also in sheath and Hartig net of ectomycorrhizas. Vacuoles contain polyphosphate in diffuse, non-granular form. Polyphosphate is present right up to the tip region of hyphae as well as in sheath and Hartig net: thus important mineral nutrient elements are present at both ends of the long hyphal transport pathway. Exactly what happens in between, however, remains to be elucidated.  相似文献   

10.
Shoji JY  Arioka M  Kitamoto K 《Autophagy》2006,2(3):226-227
Morphological analyses of vacuoles in filamentous fungi in the past decade have led to the remarkable finding that they are highly pleiomorphic organelles. Among them, tubular vacuoles have been implicated in nutrient transport between hyphal tips and the host plant surface in mycorrhizal fungi. However, a series of works suggested the presence of tubular vacuoles in other fungi that are not mycorrhizal, including Aspergillus oryzae, hinting at more general roles of the tubular vacuoles. Recently, we made two key observations by using the fusion protein of enhanced green fluorescent protein (EGFP) with a putative vacuolar t-SNARE in A. oryzae; tubular vacuoles formed more extensively in hyphae that were not in contact with nutrients, and vacuoles that were interconnected by tubules in the mature mycelial region displayed traces of microautophagy-mediated degradation of cytoplasm. The aim of this addendum is to discuss the possible involvement of vacuoles in degrading, transporting, and recycling nutrients from the mature mycelial region to hyphal tips, to support the continuous tip growth.  相似文献   

11.
Mitochondrial and chloroplast division controls the number and morphology of organelles, but how cells regulate organelle division remains to be clarified. Here, we show that each step of mitochondrial and chloroplast division is closely associated with the cell cycle in Cyanidioschyzon merolae. Electron microscopy revealed direct associations between the spindle pole bodies and mitochondria, suggesting that mitochondrial distribution is physically coupled with mitosis. Interconnected organelles were fractionated under microtubule-stabilizing condition. Immunoblotting analysis revealed that the protein levels required for organelle division increased before microtubule changes upon cell division, indicating that regulation of protein expression for organelle division is distinct from that of cytokinesis. At the mitochondrial division site, dynamin stuck to one of the divided mitochondria and was spatially associated with the tip of a microtubule stretching from the other one. Inhibition of microtubule organization, proteasome activity or DNA synthesis, respectively, induced arrested cells with divided but shrunk mitochondria, with divided and segregated mitochondria, or with incomplete mitochondrial division restrained at the final severance, and repetitive chloroplast division. The results indicated that mitochondrial morphology and segregation but not division depend on microtubules and implied that the division processes of the two organelles are regulated at distinct checkpoints.  相似文献   

12.
Details of mitochondrial system organization and behavior in the tip of growing N. crassa hyphae and hyphal fragments were studied by means of cell-permeable mitochondria-selective probes in glucose- and sorbitol-containing media. It was shown that filamentous mitochondria concentrate in the 30-μm apical zone of growing hyphae and hyphal fragments independently of the carbon source. The mitochondrial assemblies propagate forward with elongation of hypha, split upon apical branching, and are formed de novo when branches are formed away from the growing tip. These activities resemble microtubule behavior. Co-staining with Mitotracker Red and Mitotracker Green revealed possible functional heterogeneity in subpopulations of mitochondria. It was proposed that the observed features are governed by the microtubular network, while the primary function of mitochondria was to sustain the growth rate. The organizing role of electrical gradients on the growing tip and their influence on mitochondrial and microtubular networks are discussed.  相似文献   

13.
Aspergillus nidulans is an ideal model to study nuclear migration and intracellular transport by dynein and kinesin owing to its long neuron‐like hyphae, conserved transport mechanisms, and powerful genetics. In this organism, as in other filamentous fungi, microtubules have been implicated in patterning cell shape through polarized tip growth – the hallmark mode of growth that generates the elongated hyphae. Exactly how microtubules regulate tip growth is incompletely understood and remains a fascinating question for various cell types, such as pollen tubes and root hairs. Zeng et al. (2014) describe important new findings in A. nidulans regarding the role of EBA, the master regulator of microtubule plus end‐tracking proteins, in specifying microtubule dynamics required for directional tip growth at the hyphal tip.  相似文献   

14.
Roles of calcium ions in hyphal tip growth.   总被引:15,自引:0,他引:15       下载免费PDF全文
A role for Ca2+ in the tip growth process of fungal hyphae and other eukaryotic walled cells has been widely explored, following the earlier indications of their importance by Jaffe, Steer, and their colleagues. Analysis of the literature on fungi, with selected comparison with other tip-growing plant cells, shows that the growth rate and morphology of hyphae are sensitive to factors which influence intracellular Ca2+. These factors include variations in extracellular Ca2+ concentrations, Ca2+ ionophores, inhibitors of Ca2+ transport, and calmodulin- and Ca(2+)-binding dyes and buffers introduced into the cytoplasm. The effects of these agents appear to be mediated by a tip-high gradient of cytoplasmic free Ca2+ which is obligatorily present in all critically examined growing tips. Most recent observations agree that the gradient is very steep, declining rapidly within 10 to 20 microns of the tip. This gradient seems to be generated by the combined effects of an influx of Ca2+, via plasma membrane, possibly stretch-activated, channels localized in the hyphal tip, and subapical expulsion or sequestration of these ions. Expulsion probably involves a plasma membrane Ca(2+)-ATPase, but it is not yet possible to differentiate among mitochondria, endoplasmic reticulum, or vacuoles as the dominant sites of sequestration. It is suggested that regulation of the Ca2+ gradient in turn modulates the properties of the actin-based component of the cytoskeleton, which then controls the extensibility, and, possibly, the synthesis of the hyphal apex. Regulatory feedback mechanisms intrinsic to this model of tip growth regulation are briefly discussed, together with suggestions for future experiments which are crucial to its further elucidation and establishment.  相似文献   

15.
We have used light and electron microscopy to document the cytoplasmic effects of the ropy (ro-1) mutation in mature hyphae of Neurospora crassa and to better understand the role(s) of dynein during hyphal tip growth. Based on video-enhanced DIC light microscopy, the mature, growing hyphae of N. crassa wild type could be divided into four regions according to cytoplasmic organization and behavior: the apical region (I) and three subapical regions (II, III, and IV). A well-defined Spitzenk?rper dominated the cytoplasm of region I. In region II, vesicles ( approximately 0.48 micro m diameter) and mitochondria maintained primarily a constant location within the advancing cytoplasm. This region was typically void of nuclei. Vesicles exhibited anterograde and retrograde motility in regions III and IV and followed generally parallel paths along the longitudinal axis of the cell. A small population of mitochondria displayed rapid anterograde and retrograde movements, while most maintained a constant position in the advancing cytoplasm in regions III and IV. Many nuclei occupied the cytoplasm of regions III and IV. In ro-1 hyphae, discrete cytoplasmic regions were not recognized and the motility and/or positioning of vesicles, mitochondria, and nuclei were altered to varying degrees, relative to the wild type cells. Immunofluorescence microscopy revealed that the microtubule cytoskeleton was severely disrupted in ro-1 cells. Transmission electron microscopy of cryofixed cells confirmed that region I of wild-type hyphae contained a Spitzenk?rper composed of an aggregation of small apical vesicles that surrounded entirely or partially a central core composed, in part, of microvesicles embedded in a dense granular to fibrillar matrix. The apex of ro-1 the hypha contained a Spitzenk?rper with reduced numbers of apical vesicles but maintained a defined central core. Clearly, dynein deficiency in the mutant caused profound perturbation in microtubule organization and function and, consequently, organelle dynamics and positioning. These perturbations impact negatively on the organization and stability of the Spitzenk?rper, which, in turn, led to severe reduction in growth rate and altered hyphal morphology.  相似文献   

16.
The organization and roles of F-actin and microtubules in the maintenance and initiation of hyphal tip growth have been analyzed in Saprolegnia ferax and Neurospora crassa. In hyphae of both species, the apex is depleted of microtubules relative to subapical regions and near-normal morphogenesis occurs in concentrations of nocodazole or MBC which remove microtubules, slow growth, and disrupt nuclear positioning. In contrast, each species contains characteristic tip-high arrays of plasma membrane-adjacent F-actin, whose organization is largely unaltered by the loss of microtubules but disruption of which by latrunculin B disrupts tip morphology. Hyphal initiation and subsequent normal morphogenesis from protoplasts of both species and spores of S. ferax are independent of microtubules, but at least in S. ferax obligatorily involve the formation of F-actin caps adjacent to the hyphal tip plasma membrane. These observations indicate an obligatory role for F-actin in hyphal polarization and tip morphogenesis and only an indirect role for microtubules.  相似文献   

17.
Summary The tubulin cytoskeleton in hyphal tip cells ofAllomyces macrogynus was detected with an -tubulin monoclonal antibody and analyzed with microscopic and immunoblot techniques. The -tubulin antibody identified a 52 kilodalton polypeptide band on immunoblots. Immunfluorescence data were collected from formaldehyde-and cryofixed hyphae. Both methods provided similar images of tubulin localization. However, cryofixation yielded more consistent labeling and did not require detergent extraction or cell-wall lytic treatments. Tubulin was primarily localized as microtubules observed in the peripheral and central cytoplasmic regions and in mitotic spindles. Cytoplasmic microtubules were oriented parallel to the cells' longitudinal axis, with central microtubules more often varied in their alignment, and emanated from a region in the hyphal apex resulting in an apical zone of bright fluorescence. A thin layer of microtubules appearing as bands of fluorescence encircled many nuclei. Discrete spots of fluorescence were also associated with nuclei. The MPM-2 antibody, which recognizes phosphorylated epitopes of several proteins that may be involved in the regulation of microtubule nucleation, stained centrosomes but not apical regions of hyphae. Nocodazole was used to depolymerize the microtubule network and reveal its regions of origin. A hocodazole concentration of 0.01 g/ ml (3.3× 10–8M) provided a 70 to 75% inhibition of hyphal tip growth and was used throughout this study. The number of cells having an apical zone of fluorescence declined by 15 min of exposure. This zone was present in only a few cells after 60 min. After 30 min, the central cytoplasm consisted of small microtubule fragments and nuclear-associated spots. A small number of peripheral microtubules and nuclear-associated spots persisted throughout nocodazole treatments. Spindle microtubules were restored by 30 min after removal of nocodazole. This was followed by the reappearance of the apical zone of fluorescence and then by central and peripheral cytoplasmic microtubules. Apical fluorescence coincided with the presence of a Spitzenkörper. The results suggest that the Spitzenkörper and centrosome function as centers of microtubule nucleation and organization during hyphal tip growth in this fungus.Abbreviations BSA bovine serum albumin - DAPI 4,6-diamidino-2-phenylindole - DMSO dimethylsulfoxide - FITC fluorescein isothiocyanate - IB incubation buffer - LN2 liquid nitrogen - LSCM laser scanning confocal microscopy - MTOCs microtubule-organizing centers - PBS phosphate buffered saline - PIPES 1,4-piperazinedietha-nesulfonic acid - PFB PIPES fixation buffer - SDS-PAGE sodium dodecyl sulfate polyacrylamide gel electrophoresis - SPB spindle pole body - TEM transmission electron microscopy - YpSs yeast extract-inorganic phosphate-soluble starch  相似文献   

18.
Summary The effects of methyl benzimidazole-2-yl carbamate (MBC) on microtubule and actin cytoskeleton were analyzed by indirect immunofluorescence and transmission electron microscopy in a wild-type strain and a benomyl-resistant mutant (benA 10) ofAspergillus nidulans. The treatment of the wild-type strain with sublethal doses of MBC not only caused depolymerization of cytoplasmic microtubules (MTs), but also changed the pattern of actin at the hyphal tips. In the MBC-treated hyphae, the actin fluorescence was concentrated at the very tip region of the hypha, whereas in the control hyphae, the actin fluorescence was weak at the very tip and strong below the tip. The dose of MBC used for the wild-type strain did not depolymerize the MTs or modify the actin organization at the apex in the mutant strain, which confirmed that the change in actin distribution in the wild-type strain was due to the disruption of MTs. In the mutant strain, a seven times higher concentration of MBC than in the wild-type strain was required to depolymerize MTs and to alter the actin organization at the apex. The ultrastructural study of the MBC-treated hyphae revealed that the area containing apical vesicles was larger and the number of microvesicles was higher than in control hyphae. These changes probably resulted from the disassembly of MTs and the reorientation of actin cytoskeleton in MBC-treated apexes and suggested that MTs would organize the actin at the apex, which in turn would restrict the vesicle fusion to a narrow area at the hyphal tip. In treated hyphae of both strains without cytoplasmic MTs, mitotic spindles were detected although in lower number and with slightly modified morphology.Abbreviations DAPI 4,6-diamidino-2-phenylindole - DMSO dimethyl sulfoxide - EM electron microscopy - ER endoplasmic reticulum - IIP indirect immunofluorescence - MBC methyl benzimidazole-2-yl carbamate - MTs microtubules  相似文献   

19.
The multinucleate hyphae of the filamentous ascomycete fungus Neurospora crassa grow by polarized hyphal tip extension. Both the actin and microtubule cytoskeleton are required for maximum hyphal extension, in addition to other vital processes. Previously, we have shown that the monomeric GTPase encoded by the N. crassa rho-4 locus is required for actin ring formation during the process of septation; rho-4 mutants lack septa. However, other phenotypic aspects of the rho-4 mutant, such as slow growth and cytoplasmic bleeding, led us to examine the hypothesis that the microtubule (MT) cytoskeleton of the rho-4 mutant was affected in morphology and dynamics. Unlike a wild-type strain, the rho-4 mutant had few MTs and these few MTs originated from nuclear spindle pole bodies. rho-4 mutants and rho-4 strains containing a GTP-locked (activated) rho-4 allele showed a reduction in numbers of cytoplasmic MTs and microtubule stabilization at hyphal tips. Strains containing a GDP-biased (negative) allele of rho-4 showed normal numbers of MTs and minor effects on microtubule stabilization. An examination of nuclear dynamics revealed that rho-4 mutants have large, and often, stretched or broken nuclei. These observations indicate that RHO-4 plays important roles in regulating both the actin and MT cytoskeleton, which are essential for optimal hyphal tip growth and in nuclear distribution and morphology.  相似文献   

20.
Growth and organelle morphology in the wood rotting basidiomycete fungus Phanerochaete velutina were examined in Petri dishes, on agar-coated slides, and in submerged cultures, using DIC, fluorescence and four-dimensional (4-D; x,y,z,t) confocal microscopy, with several fluorescent probes. Phanerochaete is ideal for this work because of its fast growth, robustness, and use in a wide range of other studies. The probe carboxy-DFFDA, widely used for labelling vacuoles, has no effect either on hyphal tip extension or colony growth at the concentrations usually applied in labelling experiments. Carboxy-DFFDA labels the vacuoles and these form a tubular reticulum in hyphal tip cells. The probe also labels extremely small vesicles (punctate fluorescence) in the apex of tip cells, the Spitzenkörper, and short tubules that undergo sequences of characteristic movements and transformations to produce various morphologies, including ring-like structures. Their location and behaviour suggest that they are a distinct group of structures, possibly a subset of vacuoles, but as yet to be fully identified. Regular incursions of tubules extending from these structures and from the vacuolar reticulum into the apical dome indicate the potential for delivery of material to the apex via tubules as well as vesicles. Such structures are potential candidates for delivering chitin synthases to the apex. Spitzenkörper behaviour has been followed as hyphal tips with linear growth encounter obstacle hyphae and, as the hydrolysis product of carboxy-DFFDA only accumulates in membrane-enclosed compartments, it can be inferred that the labelled structures represent the Spitzenkörper vesicle cloud. Mitochondria also form a reticular continuum of branched tubules in growing hyphal tips, and dual localisation with DiOC6(3) and CMAC allows this to be distinguished from the vacuolar reticulum. Like vacuolar tubules, mitochondrial tubules also span the septa, indicating that they may also be a conduit for intercellular transport.  相似文献   

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